JP2009209915A - Various energy conservation cycle combined engine - Google Patents

Various energy conservation cycle combined engine Download PDF

Info

Publication number
JP2009209915A
JP2009209915A JP2008178700A JP2008178700A JP2009209915A JP 2009209915 A JP2009209915 A JP 2009209915A JP 2008178700 A JP2008178700 A JP 2008178700A JP 2008178700 A JP2008178700 A JP 2008178700A JP 2009209915 A JP2009209915 A JP 2009209915A
Authority
JP
Japan
Prior art keywords
power generation
vacuum
solar
theoretical best
vertically downward
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP2008178700A
Other languages
Japanese (ja)
Inventor
Hiroyasu Tanigawa
浩保 谷川
Kazunaga Tanigawa
和永 谷川
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to JP2008178700A priority Critical patent/JP2009209915A/en
Publication of JP2009209915A publication Critical patent/JP2009209915A/en
Pending legal-status Critical Current

Links

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/20Solar thermal
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/50Hydropower in dwellings
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/40Solar thermal energy, e.g. solar towers
    • Y02E10/46Conversion of thermal power into mechanical power, e.g. Rankine, Stirling or solar thermal engines
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E20/00Combustion technologies with mitigation potential
    • Y02E20/14Combined heat and power generation [CHP]
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E20/00Combustion technologies with mitigation potential
    • Y02E20/16Combined cycle power plant [CCPP], or combined cycle gas turbine [CCGT]
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P80/00Climate change mitigation technologies for sector-wide applications
    • Y02P80/10Efficient use of energy, e.g. using compressed air or pressurized fluid as energy carrier
    • Y02P80/15On-site combined power, heat or cool generation or distribution, e.g. combined heat and power [CHP] supply
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T10/00Road transport of goods or passengers
    • Y02T10/10Internal combustion engine [ICE] based vehicles
    • Y02T10/12Improving ICE efficiencies

Landscapes

  • Engine Equipment That Uses Special Cycles (AREA)
  • Turbine Rotor Nozzle Sealing (AREA)
  • Supply And Distribution Of Alternating Current (AREA)
  • Charge And Discharge Circuits For Batteries Or The Like (AREA)
  • Control Of Eletrric Generators (AREA)
  • Other Liquid Machine Or Engine Such As Wave Power Use (AREA)

Abstract

<P>PROBLEM TO BE SOLVED: To solve problems in conventional thermal power plants and nuclear power plants wherein the temperature of seawater is raised by the entire heat quantity generated by the power generation, if China continues to grow at the rate of 10%, the rise of the temperature exceeds 1,000 times in one hundred years, concentrated downpour occurs and typhoon wind velocity is increased near 10 to one hundred times, and the threat of annihilation of mankind comes. <P>SOLUTION: An opposed, series, all moving blade flywheel water turbine is driven by the vaporizing explosive force of water in a theoretically best hydraulic air force solar power generation exhausting no CO<SB>2</SB>and requiring no fuel cost. The consumed heat quantity is reduced to 1/539 of that consumed by an existing steam turbine. A gravity acceleration of 9.8 m/sec vertically downward is added to the vaporization explosive force in vacuum to enhance the acceleration. A head drop is increased to 1,000 m to increase the power generation amount. The power generation amount is increased to 1,000 times the existing hydraulic power generation = vaporizing explosive force × gravitational acceleration. The air force solar power generation is increased ten times the existing power generation amount of the world by the hydraulic air force solar power generation exhausting no additional CO<SB>2</SB>and requiring no fuel cost. Various automobiles, various ships, and various fully electrical houses driven by an extremely inexpensive hydraulic air force solar power generation storage battery can be easily and widely used by everybody for preventing global warming. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

各種エネルギ保存サイクル合体機関の理論最良エンジン水力空気力太陽光発電は、水の気化爆発力を使用することで使用熱量を過熱蒸気使用の1/539にし、水噴射ポンプ6zで400MPa噴射を可能にして、真空中で気化爆発力+重力加速度9.8m/毎秒毎秒を追加垂直下方に加速するため、資源量を含めて水銀や水等重い液体の重力加速度を使用出力kg重m/秒を増大し、高温水飽和温度100度気化爆発で1700倍容積や50度気化爆発で10000容積に近付け、気化爆発力を進行方向下流の低圧部に集中加速して、既存水力発電を理論最良エンジン水力空気力太陽光発電にすると、貯水+揚水の過程で太陽光加熱器2+太陽熱増大吊橋2bを夫々傾斜させて、太陽光を水52b管に集光して水温374度24MPa等に上昇して、気化爆発力最大狙いとし、揚水ポンプ1Hにより落差を100〜1000m以上等に増大して、水噴射ポンプ6zにより400MPa等の噴射とし、真空中で重力加速度を追加して、対向直列全動翼弾み車水タービン又は直列全動翼弾み車水タービンを駆動し、同一水量既存水力発電の100〜1000倍発電量を狙う、水力空気力太陽光発電技術に関する。   Theoretical best engine hydro-aerodynamic solar power generation of various energy conservation cycle coalescence uses 1/539 of superheated steam by using the vaporization explosive power of water, and enables 400MPa injection with water injection pump 6z In order to accelerate the vaporization explosive force + gravitational acceleration 9.8m / second per second in the vertical direction in the vacuum, the gravity acceleration of heavy liquids such as mercury and water including the amount of resources is used. The high-temperature water saturation temperature is 100 degree vaporization explosion, and it approaches 1700 times volume and 50 degree vaporization explosion to 10000 volume, and the vaporization explosive power is concentrated and accelerated in the low-pressure part downstream in the direction of travel to make the existing hydroelectric power the theoretical best engine hydraulic air In the case of high power photovoltaic power generation, the solar heater 2 + the solar thermal augmentation suspension bridge 2b is inclined in the process of storage and pumping, respectively, and the sunlight is concentrated on the water 52b pipe so that the water temperature is 374 degrees 24 MPa, etc. Ascending and aiming for maximum vaporization explosive force, the head is increased to 100-1000m or more by the pump 1H, the water injection pump 6z is set to 400MPa, etc. The present invention relates to a hydro-pneumatic photovoltaic power generation technology that drives a full-blade bouncing vehicle water turbine or a series full-blade bouncing vehicle water turbine and aims at generating power of 100 to 1000 times that of existing hydroelectric power with the same water amount.

太陽光加熱器2+太陽熱増大吊橋2bで水52b管を加熱の過程で、温度上昇した内部空気28aを熱ポンプ1Gで圧縮、繰り返し600〜1000度等の圧縮空気熱量28bで水52b加熱して、40度400MPaに近付けた圧縮空気により対向直列全動翼弾み車ガスタービン又は直列全動翼弾み車ガスタービンを駆動し、駆動の過程では水銀や鋼球や比重大物質等出力増大球2Cを空気速度で垂直下方に加速して、排気空気温度を絶対0度に近付ける過程で液体窒素や液体酸素でも回転出力を発生し、排気後は圧縮熱で水52bを加熱した熱量に近い膨大な冷熱52eを回収して、例えば非常に安価な氷を大量生産都市部を氷冷却して冷夏都市に逆転し、残りの冷熱は海水冷却の過程で海底に窒素や酸素等の栄養分を供給して、植物プランクトンや海藻類等を大増殖し、食物連鎖により魚類等を大増殖して、既存火力原子力発電が海面温度を7度上昇し、冬場に海面を冷却海底に栄養分を供給する自然現象を不可能として、テレビ報道でも日本近海の海藻類や魚類が絶滅に近付いており、海底に酸素や窒素の冷熱を供給する過程で他の栄養分も同時に供給し、食物連鎖で海藻類や魚類激減を再逆転する各種空気力太陽光発電技術に関する。   In the process of heating the water 52b pipe in the solar heater 2+ solar heat increasing suspension bridge 2b, the temperature of the internal air 28a is compressed with the heat pump 1G, repeatedly heated with the compressed air calorie 28b such as 600 to 1000 degrees, and the water 52b is heated. The opposed series full-blade bouncer gas turbine or series full-blade bouncer gas turbine is driven by the compressed air approaching 40 degrees and 400 MPa, and in the process of driving, the output spheres 2C such as mercury, steel balls and specific critical substances are increased at the air velocity. In the process of accelerating vertically downward and the exhaust air temperature approaching absolute 0 degrees, liquid nitrogen and liquid oxygen also generate rotational output, and after exhaust, a huge amount of cold heat 52e close to the amount of heat that heats the water 52b with compression heat is recovered. For example, very cheap ice can be mass-produced and cooled in urban areas to reverse into cold summer cities, and the remaining cold heat supplies nutrients such as nitrogen and oxygen to the seabed during the seawater cooling process. Nkton, seaweeds, etc. proliferate, fish, etc. proliferate through the food chain, and existing thermal power generation increases the sea surface temperature by 7 degrees, making it impossible for the natural phenomenon to supply nutrients to the sea floor by cooling the sea surface in winter As a result of the TV report, seaweeds and fish in the sea near Japan are approaching extinction, and in the process of supplying oxygen and nitrogen cold to the seabed, other nutrients are also supplied at the same time, and the drastic decline of seaweeds and fish in the food chain is reversed. It relates to various aerodynamic solar power generation technologies.

後追いエンジン発明阻止のため、高校や大学で徹底的に騙しており、回転出力発生で充分な頃発明の火力原子力発電海面温度7度上昇を100年続けると、CO2排出量や海水表面温度7度上昇海域が10%成長で1000倍を超えるため、旱魃や豪雨や風速を10倍や南極の氷を0に近付けて、陸と海の食糧が0に近付き、人類が絶滅する背景があります。海面温度7度上昇は環境に影響皆無と騙しており、人類絶滅の陰謀と仮定すると騙しに加担となり、南極の氷が0に近付き海面上昇が77mに近付く背景があります。出力や仕事率の単位がkg重m/秒等重量×速度のため、重い物質を高速度にして回転出力を発生するエンジンが理論最良エンジンですが、考えた痕跡が皆無という背景があります。そこで水力空気力太陽光発電として水銀や鋼球等重い物質を垂直下方に加速すると、低速で落差を増大する入力より高速で落下減速の過程で出力発生は大幅に出力増大し、落差増大限り無く出力を増大できる背景があります。地球での最大熱源が太陽光であり、長レンズ2dで全部集めると無限大に近く、CO2排気0や燃料費0の理論最良エンジン水力空気力太陽光発電として、無限大に近い発電量とし、太陽光発電蓄電池駆動や電気駆動の、各種自動車類全盛や各種船舶類全盛や全面電化住宅全盛等が得られる背景があります。   In order to prevent the invention of the follow-up engine, he was thoroughly hesitant at high schools and universities, and when the generation of the thermal nuclear power generation was continued 7 degrees when the generation of rotating output was sufficient, CO2 emissions and sea surface temperature 7 degrees As the rising sea area grows 10% and exceeds 1000 times, the drought, heavy rain and wind speed are 10 times, the Antarctic ice is brought close to 0, the land and sea food approaches 0, and humanity is extinct. A 7-degree rise in sea surface temperature is believed to have no impact on the environment, and assuming that it is a conspiracy to exterminate humanity, there is a background that Antarctic ice approaches 0 and sea level rise approaches 77 meters. Since the unit of output and work rate is kg weight m / sec. Equal weight x speed, the engine that generates the rotation output by making the heavy substance high speed is the theoretical best engine, but there is a background that there is no trace of thought. Therefore, if heavy materials such as mercury and steel balls are accelerated vertically downward as hydro-aerodynamic solar power generation, the output generation is significantly increased in the process of falling and decelerating at a higher speed than the input that increases the head at low speed. There is a background that can increase the output. The largest heat source on the earth is sunlight, and if it is collected by the long lens 2d, it is close to infinity, and the theoretical best engine hydro-aerodynamic solar power generation with zero CO2 exhaust and zero fuel cost is set to near infinity, There is a background to obtain various types of automobiles, various types of ships, and full-scale electrified houses, such as solar power storage battery drive and electric drive.

昭和17〜18年に理論最良エンジンの発明を決意し、昭和38年岡山地方発明センターの請負で試作を開始して、自分でも試作を続けましたがエンジンの試作は非常に困難です。そこで昭和57年2月より国内大企業等多数にご協力のお願い始めましたが、日本企業等の協力が皆無で、外国唯一お願いしたクリントン大統領の協力がお願いの都度3年3回得られ、1992年米国特許5133305号、1993年米国特許5230307号、1995年米国特許5429078号の駄目発明が判明したのです。既存のエンジンに致命的な欠点が非常に多く一発発明不可能が判明し、急がば回れと1997年ホームページを開設して欠点を1つづつ改良特許出願して、2006年理論最良エンジン近くに到達したものです。
米国特許第6119650号、中国特許第8818号、EU英国特許902175号、米国特許第6263664号があり、上記多数の背景技術を改良や、下記特許文献2も理論最良エンジン発明の過程の発明です。 先の出願として特願2006−260020号、特願2006−327809号、特願2007−179204号、特願2007−221970号、特願2007−237367号、特願2007−250348号、特願2007−265115号、特願2008−6612号、特願2008−22246号、特願2008−24656号、特願2008−28582号、特願2008−30162号、特願2008−94452号、特願2008−99870号、特願2008−125665号、特願2008−134046号、特願2008−137629号、特願2008−157556号、特願2008−158830号、特願2008−162842号、特願2008−164111号、特願2008−166907号があります。
I decided to invent the theoretical best engine in Showa 17-18 and started prototyping at the contract of the Okayama Regional Invention Center in 1963 and continued to make the prototype myself, but the engine prototype is very difficult. Therefore, in February 1982, we started requesting cooperation from a large number of domestic large corporations, etc., but there was no cooperation from Japanese companies, etc., and every time we asked for the cooperation of President Clinton, the only request from foreign countries, three times a year, The 1992 US Patent 5133305, 1993 US Patent 5230307, and 1995 US Patent 5429078 were found to be useless. It was found that there were so many fatal faults in the existing engine that it was impossible to invent the first one, and suddenly, the 1997 homepage was opened and an improvement patent was filed one by one for the faults. It is what you have reached.
There are US Pat. No. 6,119,650, Chinese Patent No. 8818, EU British Patent No. 902175, US Pat. No. 6,263,664, and many of the above background technologies have been improved, and the following Patent Document 2 is also an invention in the process of theoretical best engine invention. As prior applications, Japanese Patent Application No. 2006-260020, Japanese Patent Application No. 2006-327809, Japanese Patent Application No. 2007-179204, Japanese Patent Application No. 2007-221970, Japanese Patent Application No. 2007-237367, Japanese Patent Application No. 2007-250348, Japanese Patent Application No. 2007- No. 265115, Japanese Patent Application No. 2008-6612, Japanese Patent Application No. 2008-22246, Japanese Patent Application No. 2008-24656, Japanese Patent Application No. 2008-28582, Japanese Patent Application No. 2008-30162, Japanese Patent Application No. 2008-94452, Japanese Patent Application No. 2008-99870 No., Japanese Patent Application No. 2008-125665, Japanese Patent Application No. 2008-134046, Japanese Patent Application No. 2008-137629, Japanese Patent Application No. 2008-157556, Japanese Patent Application No. 2008-158830, Japanese Patent Application No. 2008-162842, Japanese Patent Application No. 2008-164111 There is Japanese Patent Application No. 2008-166907

既存世界の火力原子力発電所では、CO2増大地球温暖化加速や海水表面温度摂氏7度上昇海域を100年で1000倍に近付け、冬場に海面冷却して海底に栄養分を供給していた自然現象を不可能として、植物プランクトンや海草類やサンゴ等を激減、食物連鎖により魚類の食糧激減魚類を大幅に激減人類の海中食物を限り無く減少し、旱魃や集中豪雨や台風風速を10〜100倍に限り無く増大して、陸上での食糧生産も加速度的に困難とし、人類絶滅の危険を増大のため、理論最良エンジン水力空気力太陽光発電により同一水量既存世界の水力発電の1000倍発電量とし、既存世界の火力原子力発電所を全廃して、水力空気力太陽光発電蓄電池駆動各種自動車類全盛や、蓄電池駆動各種船舶類全盛や全面電化住宅全盛にし、CO2排気0燃料費0で人類絶滅を先送りする課題が在ります。   In the existing thermal power plants in the world, CO2 increases global warming acceleration and the sea surface temperature rises 7 degrees Celsius close to 1000 times in 100 years, the natural phenomenon of cooling the sea surface in winter and supplying nutrients to the sea floor Impossibility, phytoplankton, seaweeds, corals, etc. are drastically reduced, fish foods are drastically reduced by the food chain, fishes are drastically reduced, and underwater foods are drastically reduced. In order to make food production on land more difficult and accelerate the danger of mankind extinction, the theoretical best engine hydro-air solar power generation makes the same water quantity 1000 times that of hydro power generation in the existing world, Completely abolished existing thermal nuclear power plants in the world, flourishing various types of automobiles driven by hydro-pneumatic photovoltaic power generation batteries, primed various types of ships powered by storage batteries and full-scale electrified houses, and reduced CO2 emissions. 0 fuel costs 0 there is a challenge to put off the human race extinct.

CO2排気0燃料費0の理論最良エンジン水力空気力太陽光発電により、同一水量既存水力発電の100〜1000倍発電量に増大して、既存世界の発電量の10倍発電量を超えて、水力空気力太陽光発電蓄電池駆動各種自動車類全盛や、蓄電池駆動各種船舶類全盛や全面電化住宅全盛にし、既存世界の火力原子力発電所全廃CO2排気0にして、地球温暖化を防止し、海面7度上昇海域を縮小して、人類絶滅を先送りする効果があります。   Theoretical best engine hydro-air solar power generation with zero CO2 emissions and zero fuel cost Increases to 100-1000 times the same amount of existing hydroelectric power generation, exceeding 10 times the existing world power generation, Air-powered solar power storage battery-powered automobiles, storage-powered ships and all electrified houses are primed, and all existing thermal power plants are completely abolished to reduce CO2 emissions to prevent global warming. The effect is to reduce the rising sea area and postpone human extinction.

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

図1の対向直列全動翼弾み車水タービン8Kは、対向に全動翼弾み車水タービン8b8bを夫々対向直列垂直に限り無く多段に設けて、高温水52b気化爆発力+真空中で重力加速度9.8m/毎秒毎秒を効率良く利用し、選択したタービン翼断面4Xのタービン翼8c及び測板8dの、全動翼弾み車水タービン8b径を大径として高速水速度の回転数を1万回転等に低減して、タービン翼8cに作用させる水量が既存水タービンの1/100〜1/1000等に低減するため、軸方向長は100〜500m等として多数に分割両側に発電機や空気圧縮機等を駆動可能に具備し、タービン外箱77a内に最適間隔で具備して最適間隔で設けて、磁気摩擦同期装置55・55等により同期させ、対向無接触に適宜に接近又は噛合せて噴射質量に合せた強度大きさ間隔で多数設けて、タービン翼8c8cを夫々の円筒胴8e8eの外周軸方向半径方向に用途出力に合せて延長拡大して、出力発生タービン翼8cを1/10前後にし、全動翼弾み車水タービン8b加熱高温手段3B等の摩擦損失低減手段で転がり接触にして、落差1000m等に可能な限り増大、同一水量既存水力発電の1000倍発電量を狙います。   The opposed series full blade impeller water turbine 8K in FIG. 1 is provided with multi-stage impeller series turbine water turbines 8b8b arranged in multiple stages without limitation in the opposite series perpendicular to each other. Efficient use of 8m / sec., The turbine blade 8c and the measuring plate 8d of the selected turbine blade cross section 4X have a large diameter of the all-wheel impeller water turbine 8b and a high speed water speed of 10,000 revolutions, etc. In order to reduce the amount of water that acts on the turbine blade 8c to 1/100 to 1/1000 of the existing water turbine, the axial length is 100 to 500 m, etc. Can be driven, provided in the turbine outer box 77a at an optimum interval and provided at an optimum interval, synchronized by the magnetic friction synchronization devices 55, 55, etc. In The turbine blades 8c8c are extended and enlarged in accordance with the application output in the radial direction of the outer peripheral axis of each cylindrical body 8e8e, and the output generating turbine blades 8c are reduced to about 1/10. Rolling-wheel bobbin water turbine 8b Heating high-temperature means 3B and other friction loss reduction means, such as rolling contact, increase as much as possible to a drop of 1000m, aiming for the same water amount 1000 times that of existing hydropower generation.

図2の直列全動翼弾み車水タービン8Lは、全動翼弾み車水タービン8bを外箱垂直部94Aと平行垂直に限り無く多段に設けて、高温水52b気化爆発力+真空中で重力加速度9.8m/毎秒毎秒を効率良く利用し、選択したタービン翼断面4Xのタービン翼8c及び測板8dの、全動翼弾み車水タービン8b径を大径として高速水速度の回転数を1万回転等に低減して、タービン翼8cに作用させる水量が1/100〜1/1000等に低減するため、軸方向長は100〜500m等として多数に分割両側に発電機や空気圧縮機等を駆動可能に具備し、タービン外箱77a内に最適間隔で具備して最適間隔で設けて、噴射質量に合せた強度大きさ間隔で多数設けて、タービン翼8cを円筒胴8eの外周軸方向半径方向に用途出力に合せて延長拡大して、出力発生タービン翼8cを1/10前後にし、全動翼弾み車水タービン8b加熱高温手段3B等の摩擦損失低減手段3で転がり接触駆動にして、落差1000m等に増大を狙い、同一水量既存水力発電の1000倍発電量を狙います。   In the series full blade impeller water turbine 8L in FIG. 2, the full blade impeller water turbine 8b is provided in multiple stages without limitation in parallel and perpendicular to the outer casing vertical portion 94A, and high temperature water 52b vaporization explosive force + gravity acceleration in vacuum 9 Efficiently use 8 m / sec / s, select the turbine blade 8c and the measuring plate 8d of the selected turbine blade cross section 4X, and increase the diameter of the all-wheel impeller water turbine 8b to a large diameter and the rotational speed of the high-speed water speed to 10,000 revolutions, etc. The amount of water acting on the turbine blade 8c is reduced to 1/100 to 1/1000, etc., so that the axial length is 100 to 500m, etc., and a generator or air compressor can be driven on both sides. The turbine blade 8c is provided in the turbine outer box 77a at an optimum interval, provided at an optimum interval, and provided at a plurality of strength sizes according to the injection mass, and the turbine blades 8c are arranged in the radial direction of the outer peripheral axis of the cylindrical body 8e. According to the application output The power generation turbine blade 8c is enlarged to about 1/10, and the rolling loss is driven by the friction loss reducing means 3 such as the heating high-temperature turbine water turbine 8b heating high temperature means 3B, aiming at an increase to a drop of 1000 m, etc. Aiming to generate 1000 times the same amount of water as existing hydropower.

図3の対向直列全動翼弾み車水タービン8K乃至直列全動翼弾み車水タービン8Lは、全動翼弾み車水タービン8bを平行水平垂直に限り無く多段に設けて、高温水52b気化爆発力+真空中で重力加速度9.8m/毎秒毎秒を効率良く利用し、選択したタービン翼断面4Xの図1図2タービン翼8c及び測板8dの、全動翼弾み車水タービン8b径を10m近い大径として、高速水速度の回転数を3千〜1万回転等に低減し、タービン翼8cに作用させる水量を既存水力発電の1/100〜1/1000等に低減して、軸方向長は100〜500m等長大として多数に分割し、20〜50mで分割して両側に発電機1や熱ポンプ1G等を具備して、タービン外箱77a内に最適間隔で具備して最適間隔で設け、噴射質量に合せた強度大きさ間隔で多数設けて、タービン翼8cを円筒胴8eの外周軸方向半径方向に用途出力に合せて延長拡大し、全動翼弾み車水タービン8bを加熱高温手段3B等の摩擦損失低減手段3で転がり接触駆動にして、落差1000mに増大同一水量既存水力発電の500〜1000倍発電量を狙います。   The opposed series full blade impeller water turbine 8K to serial full blade impeller water turbine 8L in FIG. 3 is provided with all the blade impeller water turbines 8b in multiple stages without limitation in parallel horizontal and vertical, and high temperature water 52b vaporization explosive force + vacuum. Among them, the gravitational acceleration of 9.8 m / second per second is efficiently used, and the diameter of the turbine blade 8c and the measuring plate 8d of the selected turbine blade cross section 4X is set to a large diameter near 10 m. The rotational speed of the high-speed water speed is reduced to 3,000 to 10,000 revolutions, the amount of water acting on the turbine blade 8c is reduced to 1/100 to 1/1000 of the existing hydroelectric power generation, and the axial length is 100 to Divided into a large number such as 500 m, divided into 20 to 50 m, equipped with generators 1 and heat pumps 1G on both sides, provided in the turbine outer box 77a at the optimum intervals, and provided at the optimum intervals. Intensity matched to The turbine blades 8c are extended and expanded in accordance with the application output in the radial direction of the outer peripheral axis of the cylindrical body 8e, and the whole blade impeller water turbine 8b is rolled by the friction loss reducing means 3 such as the heating high temperature means 3B. With contact drive, the head increases to a drop of 1000m and aims to generate 500 to 1000 times the same amount of water as existing hydropower.

図4の対向直列全動翼弾み車ガスタービン8K乃至直列全動翼弾み車ガスタービン8Lは、全動翼弾み車ガスタービン8aを平行水平垂直に限り無く多段に設けて、水銀・鋼球・比重大物質や夫々に被覆等を設けた出力増大球2Cを、内部空気28aの圧縮空気圧力速度で加速+真空中で重力加速度9.8m/毎秒毎秒を効率良く利用し、選択したタービン翼断面4Xの図1図2タービン翼8c及び測板8dの、全動翼弾み車ガスタービン8a径を10m近い大径として、高速圧縮空気加速の回転数を3千〜1万回転等に低減し、タービン翼8cを柔軟物質で構成して、鋼球等で回転出力を発生させる重量を既存水力発電の1/100〜1/1000等に低減し、軸方向長は100〜500m等長大として多数に分割して、20〜50mで分割して両側に発電機1や熱ポンプ1G等を具備し、太陽光加熱空気を圧縮600〜1000度等に繰り返し圧縮水加熱を繰り返して、限り無く高圧の圧縮空気にし、対向直列全動翼弾み車ガスタービン8K乃至直列全動翼弾み車ガスタービン8Lを駆動する空気力太陽光発電にして、回転出力発生の過程では液体窒素や液体酸素でも回転出力を発生して排気温度を絶対0度に近付け、膨大な冷熱を回収して安価氷の大量生産とし、都市部を氷冷却して冷夏都市などを狙います。   The opposed series full-blade pusher gas turbine 8K to serial full-blade pusher gas turbine 8L in FIG. 4 is provided with all-blade pusher gas turbines 8a in multiple stages without being limited in parallel, horizontal, vertical, mercury, steel balls, and specific significant substances. Accelerating the power increasing spheres 2C each provided with a coating or the like at the compressed air pressure speed of the internal air 28a + the gravitational acceleration of 9.8 m / second in a vacuum is efficiently used, and a diagram of the selected turbine blade cross section 4X 1 Fig. 2 The turbine blade 8c and the measuring plate 8d have a diameter of the whole moving blade propeller gas turbine 8a having a large diameter close to 10 m, and the rotational speed of high-speed compressed air acceleration is reduced to 3,000 to 10,000 rpm, etc. Composed of a flexible material, the weight that generates rotational output with a steel ball or the like is reduced to 1/100 to 1/1000 of the existing hydroelectric power generation, and the axial length is divided into a large number such as 100 to 500 m, Minutes at 20-50m The generator 1 and the heat pump 1G etc. are provided on both sides, and the solar heating air is repeatedly compressed water heated to 600 to 1000 degrees, etc., to be compressed into high-pressure compressed air as much as possible. The aerodynamic solar power generation that drives the gas turbine 8K to the series all blade impeller gas turbine 8L, and in the process of generating the rotational output, the rotational output is generated even with liquid nitrogen or liquid oxygen to bring the exhaust temperature close to absolute 0 degree. It collects a huge amount of cold heat to produce low-cost ice in large quantities, and cools urban areas with ice to aim for cold summer cities.

図5の太陽光加熱器2は既存水力発電所以外の広大な各種水面を利用して、発泡プラスチック等の断熱材2cを半筒外箱77Bで囲って半円等の長大な筒を設けて、その中に耐熱材2Aを設けて水52b管を熱吸収材2B含めて具備し、上部に幅広長大な長レンズ2dを継手80A+締付具80Bで密封真空断熱可能に設けて、長手方向には継手80Aで無限延長可能に、180度反対方向にはU型管52Aで太陽光に直角維持回転する等とし、既存技術で真空等として断熱して太陽光を水52b管に集中して、長レンズ2dの幅や長さ増大で水52bの温度を急速上昇し、1日で3日分温度上昇する等として、既存のレンズ断面やレンズ材質全部を選択使用可能とし、半円長大筒状等の太陽光加熱器2を水上非常に僅少な動力で太陽光と直角を維持して、180度方向転換の場合は水52b管にU型管52Aを設けて太陽光と直角を維持し、太陽光の屈折を利用して水52b管に太陽光を集中して、限り無く大量の水52bを燃料費0CO2排気0で高温として、太陽熱増大吊橋2bの水52b管に揚水ポンプ1Hで送水し、複数回昇圧水温摂氏374度24MPaに近付け、内部空気28aは熱ポンプ1Gで吸入複数回圧縮複数回600〜1000度等として、水52b温度を374度に近付けます。   The solar heater 2 of FIG. 5 uses a wide variety of water surfaces other than the existing hydroelectric power plant, and encloses a heat insulating material 2c such as foamed plastic with a half-cylinder outer box 77B to provide a long cylinder such as a semicircle. In addition, a heat-resistant material 2A is provided, and a water 52b pipe including the heat-absorbing material 2B is provided, and a wide and long lens 2d is provided on the upper portion so as to be sealed and heat-insulated with a joint 80A + clamp 80B. Can be extended indefinitely with the joint 80A, and in the opposite direction 180 degrees, the U-shaped tube 52A rotates at a right angle to the sunlight, etc., and heat is insulated as a vacuum or the like with existing technology to concentrate the sunlight on the water 52b tube, By increasing the width and length of the long lens 2d, the temperature of the water 52b is rapidly increased, and the temperature is increased by 3 days per day, so that the existing lens cross section and all the lens materials can be selected and used. The solar heater 2 is directly connected to sunlight with very little power on the water. In the case of 180 degree change of direction, the water 52b pipe is provided with a U-shaped pipe 52A to maintain a right angle with the sunlight, and sunlight is concentrated on the water 52b pipe using the refraction of sunlight. An infinitely large amount of water 52b is heated to a high temperature with a fuel cost of 0CO2 and exhausted, and is pumped to the water 52b pipe of the solar thermal augmentation suspension bridge 2b by a pumping pump 1H. As a result, the temperature of water 52b is brought close to 374 degrees.

図6の太陽熱増大吊橋2b実施例5長レンズ2dは、前記と略同様に構成して複数を更に幅方向に締付具80Bで締付密封し、太陽光と直角に設けて吊具左2f吊具右2gの最上部で左右を上下に移動して、太陽熱増大吊橋2bを太陽光の移動方向に合せて傾斜太陽光との直角受光とし、複数の水52b管に複数の長レンズ2dをセットで設けて、加熱温度に合せた長レンズ2dの幅で複数具備して断熱や焦点距離の短縮を可能にし、太陽熱増大吊橋2bを発泡プラスチック等の断熱材2cで構成保温して、落差を300〜1000mに増大の過程で複数の水52b管水温374度24MPa等とし、水噴射ポンプ6zより400MPa前後で噴射して、対向直列全動翼弾み車水タービン8K乃至直列全動翼弾み車水タービン8Lを駆動し、同一水量既存水力発電の500〜1000倍発電量狙いとして、排気の過程では前記冷熱52e冷却も選択可能とし、復水は繰り返し太陽光加熱器2及び太陽熱増大吊橋2bで集光摂氏374度前後で使用して、夫々の内部高温空気28aは熱ポンプ1Gで圧縮繰り返し600〜1000度として水52bを加熱し、繰り返し非常に安価な水力空気力太陽光発電とし、水力空気力太陽光発電蓄電池駆動等の、各種自動車類全盛や各種船舶類全盛や全面電化住宅全盛にします。   6 is constructed in substantially the same manner as described above, and a plurality of lenses are further tightened and sealed with a fastener 80B in the width direction, and provided at a right angle to the sun light 2f. Move right and left up and down at the uppermost part of the right 2g of the hanging tool, make the solar thermal augmentation suspension bridge 2b receive light at right angles to the inclined sunlight in accordance with the moving direction of sunlight, and a plurality of long lenses 2d on a plurality of water 52b tubes. It is provided as a set, and a plurality of long lenses 2d corresponding to the heating temperature are provided so that heat insulation and focal length can be shortened, and the solar thermal suspension suspension bridge 2b is constituted by a heat insulating material 2c such as foamed plastic to keep the head low. In the process of increasing to 300-1000 m, the water temperature of the plurality of water 52b pipes is set to 374 degrees 24 MPa, etc., and is injected at around 400 MPa from the water injection pump 6z, and the opposed series all blade impeller water turbine 8K to the series all blade impeller water turbine 8L. Drive the In order to generate 500 to 1000 times the amount of existing hydroelectric power generation, the cooling 52e cooling can be selected in the exhaust process, and condensate is repeatedly concentrated at around 374 degrees Celsius by the solar heater 2 and the solar thermal suspension bridge 2b. In use, each internal high temperature air 28a is repeatedly compressed by a heat pump 1G to heat the water 52b at 600 to 1000 degrees to repeatedly produce a very inexpensive hydro-pneumatic photovoltaic power generation, driving a hydro-pneumatic photovoltaic power storage battery, etc. , Various types of automobiles, various types of ships and full-scale electrified housing.

CO2排気0燃料費0の理論最良エンジン水力空気力太陽光発電により、既存世界発電量の10倍はZ電量とし、非常に安価な水力空気力太陽光発電蓄電池駆動や電気使用の、各種自動車類全盛や各種船舶類全盛や全面電化住宅全盛等にして、安価膨大な冷熱利用により都市部を氷冷却し、冷夏都市にして地球温暖化防止する可能性があります。   Theoretical engine with zero CO2 emissions and zero fuel cost The best engine hydro-aerodynamic solar power generation makes Z electricity 10 times as much as the existing world power generation. There is a possibility that the city area will be ice-cooled by using a huge amount of cold heat, making it a cold summer city and preventing global warming by making it prime, various types of ships, full-scale electrified housing.

対向直列全動翼弾み車水タービン8K重力加速度利用の断面図(実施例1)Cross section of opposed series full blade impeller water turbine using 8K gravity acceleration (Example 1) 直列全動翼弾み車水タービン8Lで重力加速度利用の断面図(実施例2)Cross-sectional view of using gravity acceleration in series all blade impeller water turbine 8L (Example 2) 直列全動翼弾み車水タービン8K8L+発電機の説明図(実施例3)Explanatory drawing of serial all blade impeller water turbine 8K8L + generator (Example 3) 直列全動翼弾み車ガスタービン8K8L+発電機の説明図(実施例4)Explanatory drawing of serial all blade impeller gas turbine 8K8L + generator (Example 4) 太陽光加熱器2の説明図(実施例5)Explanatory drawing of the solar heater 2 (Example 5) 太陽熱増大吊橋2b+水熱交換器2Yの説明図(実施例6)Explanatory drawing of the solar heat increase suspension bridge 2b + water heat exchanger 2Y (Example 6)

符号の説明Explanation of symbols

1:発電機、 1A:水銀排気検査室、 1B:酸素量増大手段、 1C:アルコール冷熱、 1F:水ポンプ、 1G:熱ポンプ、 1H:揚水ポンプ、 2:太陽光加熱器(水面浮上長レンズ複数段で太陽光追跡) 2a:復水器、 2b:太陽熱増大吊橋(吊具左右を上下して長レンズ複数段で太陽光追跡) 2c:断熱材、 2d:長レンズ、 2e:水面、 2f:吊具左、 2g:吊具右、 2A:耐熱材、 2B:熱吸収材、 2C:出力増大球、 2D:出力増大手段、 2Y:水熱交換器、 3:摩擦損失低減手段(撥水作用や加熱高温手段等で摩擦損失を低減) 3A:撥水作用(水との摩擦損失低減手段) 3B:加熱高温手段(電気抵抗や電磁加熱等既存技術で高温にする) 3C:冷熱回収手段、 3G:撥水作用(水銀との摩擦損失低減手段) 4A:タービン翼断面(既存断面) 4B:タービン翼断面(出力面湾曲少断面) 4C:タービン翼断面(出力面直線断面) 4D:タービン翼断面(出力反対面直線断面) 4E:タービン翼断面(出力反対面湾曲少断面) 4F:タービン翼断面(既存の反対断面) 4X:タービン翼断面(4A〜4Fより選択断面) 5C:空気排気室、 6:ノズル、 6a:ノズル噴射部、 6b:ノズル噴射部、 6d:ノズル噴射部、 6z:水噴射ポンプ、 7:燃料噴射弁、 8a:全動翼弾み車ガスタービン、 8b:全動翼弾み車水タービン(全動翼水タービン)、 8c:タービン翼、 8d:側板、 8e:円筒胴、 8E:全動翼弾み車水銀タービン(全動翼水銀タービン) 8K:対向直列全動翼弾み車タービン(対向直列全動翼弾み車水銀タービン対向直列全動翼弾み車水タービン対向直列全動翼弾み車ガスタービン)、 8L:直列全動翼弾み車タービン(直列全動翼弾み車水銀タービン直列全動翼弾み車水タービン直列全動翼弾み車ガスタービン)、 11A:隔壁、 11B:水室 11C:空気室、 28a:空気、 28b:圧縮空気熱量、 49:燃焼ガス、 49B:煙突燃焼ガス熱量、 49C:工場使用熱量、 51:空気抽出器、 52a:水、 52b:水(太陽光で温度が変る水) 52b:高温水、 77B:半筒外箱、 77a:タービン外箱、 80A:継手、 80B:締付具、 81:支軸、 81a:支点、 94A:外箱垂直部、 95:高温水溜、   DESCRIPTION OF SYMBOLS 1: Generator, 1A: Mercury exhaust test room, 1B: Oxygen amount increasing means, 1C: Alcohol cold heat, 1F: Water pump, 1G: Heat pump, 1H: Lifting pump, 2: Solar heater (water surface floating lens) 2a: Condenser, 2b: Solar thermal suspension suspension (up and down the left and right sides of the lifting tool, long lens tracking with multiple lenses) 2c: Thermal insulation, 2d: Long lens, 2e: Water surface, 2f : Suspension tool left, 2g: Suspension tool right, 2A: Heat-resistant material, 2B: Heat absorbing material, 2C: Output increasing ball, 2D: Output increasing means, 2Y: Water heat exchanger, 3: Friction loss reducing means (water repellent) 3A: Water repellent action (means for reducing friction loss with water) 3B: High temperature means for heating (high temperature with existing technology such as electric resistance and electromagnetic heating) 3C: Cold energy recovery means 3G: Water repellent action (friction with mercury 4A: Turbine blade cross section (existing cross section) 4B: Turbine blade cross section (output surface curved small cross section) 4C: Turbine blade cross section (output surface straight cross section) 4D: Turbine blade cross section (output opposite surface straight cross section) 4E: 4F: Turbine blade cross section (existing opposite cross section) 4X: Turbine blade cross section (selected cross section from 4A to 4F) 5C: Air exhaust chamber, 6: Nozzle, 6a: Nozzle injection section 6b: Nozzle injection unit, 6d: Nozzle injection unit, 6z: Water injection pump, 7: Fuel injection valve, 8a: Full blade impeller gas turbine, 8b: Full blade impeller water turbine (full dynamic blade water turbine), 8c: Turbine blades, 8d: Side plate, 8e: Cylindrical body, 8E: All blade impeller mercury turbine (all blade mercury turbine) 8K: Opposite series all blade impeller turbine (opposite) Series full blade impeller mercury turbine opposed series full blade pusher water turbine opposed series full blade pusher gas turbine), 8L: series full blade pusher turbine (series full blade pusher mercury turbine series full blade pusher water turbine series all 11A: partition wall, 11B: water chamber, 11C: air chamber, 28a: air, 28b: compressed air calorie, 49: combustion gas, 49B: chimney combustion gas calorie, 49C: factory use calorie, 51: Air extractor, 52a: Water, 52b: Water (water whose temperature changes due to sunlight) 52b: High-temperature water, 77B: Half cylinder outer box, 77a: Turbine outer box, 80A: Joint, 80B: Fastener, 81: Support shaft, 81a: fulcrum, 94A: vertical part of outer box, 95: hot water reservoir,

Claims (5000)

理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Preventing Global Warming + Vaporization Explosive Force in Vacuum + Gravity Acceleration Accelerates Vertically Downward, Split Fastener (80B) Fastening Long Lens (2d) Various energy storage cycle coalescing engines that increase the range of power generation and increase power generation. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。辞書   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Generation Method to Prevent Global Warming + Vaporization Explosive Force in Vacuum + Gravity Acceleration is further accelerated vertically downward and divided into multiple long lenses with fastening tools (80B) Various energy storage cycle coalescing engines provided as a method of increasing power generation by providing (2d) as a set. dictionary 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro aerodynamic Solar power generation method to prevent global warming + Vaporization explosion force in vacuum + Gravity acceleration is accelerated vertically downward, and selected production length lens (2d) from existing material is made long and power generation amount Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-pneumatic solar power generation method to prevent global warming + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-pneumatic solar power generation to prevent global warming + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sun Various energy conservation cycle coalescing engines that maintain the light near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, split fastener (80B ) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the tightening long lens (2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, divided and clamped (80B) Various energy storage cycle coalescing engines in which a plurality of tightened long lenses (2d) are provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward and selected from existing materials Various energy storage cycle coalescing engines with a long lens (2d) and a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation with CO2 Exhaust Zero Power Generation + Solar Heater (2) + Vaporization Explosive Force in Vacuum + Gravitational Acceleration Accelerates Vertically Downward, Selects Cross Section from Existing Lens Cross Section Various energy conservation cycle coalescence engine that uses a long lens (2d) to increase the amount of concentrated power generation in the water (52b) pipe with sunlight. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with zero CO2 emissions + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward at the part approaching the vacuum Various energy storage cycle coalescence engine that uses a heat insulating long lens (2d) and sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, split fastener (80B ) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the tightening long lens (2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, divided and clamped (80B) Various energy storage cycle coalescing engines in which a plurality of tightened long lenses (2d) are provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward and selected from existing materials Various energy storage cycle coalescing engines with a long lens (2d) and a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation with CO2 Exhaust Zero Power Generation + Solar Heater (2) + Vaporization Explosive Force in Vacuum + Gravitational Acceleration Accelerates Vertically Downward, Selects Cross Section from Existing Lens Cross Section Various energy conservation cycle coalescence engine that uses a long lens (2d) to increase the amount of concentrated power generation in the water (52b) pipe with sunlight. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with zero CO2 emissions + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward at the part approaching the vacuum Various energy storage cycle coalescence engine that uses a heat insulating long lens (2d) and sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward Various energy storage cycle coalescing engines in which the width of the long lens (2d) for tightening the split fastener (80B) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward Various energy storage cycle coalescing engines that are divided into a plurality of long lenses (2d) tightened with a fastener (80B) and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward In addition, various energy storage cycle coalescence engines using a method of increasing the amount of power generation by making the selected production long lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward Various energy conservation cycle coalescence engines using a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross-section long lens (2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward In addition, various energy storage cycle coalescing engines that use a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration Various energy conservation cycle coalescence engines that accelerate downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Various energy conservation cycle coalescence engines with a method of increasing power generation by accelerating the vaporization explosive force + gravitational acceleration vertically downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) . 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Method of increasing power generation by heating water (52b) + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and various methods for increasing power generation Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) is increased to provide a method for increasing power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration Additional energy storage cycle coalescence engine that accelerates further vertically downward and divides it into a set of multiple long lenses (2d) tightened with a fastener (80B) to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into multiple energy storage cycles with multiple length lenses (2d) tightened with fasteners (80B) as a set. Combined organization. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, divided into multiple long lenses (2d) for fastening fasteners (80B), and a set of power generation Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long lenses (2d) for fastening a fastener (80B) and a method for increasing power generation Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided to provide a plurality of long lenses (2d) for fastening a fastener (80B) and a method for increasing power generation Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration Additional energy conservation cycle coalescence engine that accelerates further vertically downward and uses a method of increasing the power generation amount by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Various energy conservation cycle coalescing engines that accelerate the vaporization explosive force + gravitational acceleration vertically downward and make the selected production length lens (2d) long from existing materials and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Various energy conservation cycle coalescence engine that heats water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material and the power generation amount is increased. . 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and various energy storage cycle coalescing engines using a method of increasing the power generation amount by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Various energy storage cycle coalescence engines that use fuel injection and combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, and make the selected production length lens (2d) long from existing materials and increase power generation amount. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration Additional energy storage cycle coalescence engine that accelerates downward vertically and uses a method of increasing the amount of concentrated power generation from the existing lens cross-section to the water (52b) pipe with the selected cross-section long lens (2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and various energy conservation cycles are combined with the method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d). organ. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is increased to the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d). Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and sunlight is transferred from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d). Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration Additional energy conservation cycle coalescence engine that accelerates further vertically downward and maintains heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and various energy conservation cycles using a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation Combined organization. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of the vacuum. Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part approaching the vacuum. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the part close to the vacuum. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration Combined engine with various energy storage cycles that uses a power generation method that accelerates further vertically downward. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Various energy storage cycle coalescing engines with a power generation method that accelerates vaporization explosion force + gravitational acceleration vertically downward. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Various energy storage cycle coalescence engines that use water (52b) as a power generation method that accelerates vaporization explosion force + gravity acceleration in the vertical direction by heating water (52b). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Is a power generation method that accelerates vaporization explosive force + gravitational acceleration in vacuum + downward in the vacuum. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Various energy conservation cycle coalescing engines that are fuel-injection-combustion + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + drop increase by pumping pump (1H) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, split tightening Various energy storage cycle coalescing engines that use a method of increasing power generation by increasing the width of the long lens (2d) for tightening the tool (80B). 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature 7 degrees + drop increase with pumping pump (1H) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward and divided Various energy storage cycle coalescing engines with a method of increasing power generation by providing a set of multiple long lenses (2d) for tightening a fastener (80B). 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + Drop increase with pumping pump (1H) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy storage cycle coalescing engines with a method of increasing the amount of power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method to abolish seawater surface temperature 7 degrees + drop increase with pumping pump (1H) + vaporization explosive force + gravity acceleration in vacuum additional vertical cross-section Various energy storage cycle coalescence engines that use a method of increasing the amount of concentrated power generation from sunlight into a water (52b) pipe with a long section (2d). 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic solar power generation method of abolishing sea water surface temperature by 7 degrees + Drop increase with pumping pump (1H) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards closer to vacuum Various energy conservation cycle coalescing engines with a method of increasing the amount of power generation by maintaining the heat insulating long lens (2d) and sunlight in the vicinity of a right angle at the part. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat-insulating material (2c) half-cylinder outer box (77B) vaporization explosive force + gravity acceleration Various energy conservation cycle coalescence engines that accelerate downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat-insulating material (2c) half-cylinder outer box (77B) vaporization explosive force + gravity acceleration Additional energy storage cycle coalescence engine that accelerates further vertically downward and divides it into a set of multiple long lenses (2d) tightened with a fastener (80B) to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat-insulating material (2c) half-cylinder outer box (77B) vaporization explosive force + gravity acceleration Additional energy conservation cycle coalescence engine that accelerates further vertically downward and uses a method of increasing the power generation amount by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat-insulating material (2c) half-cylinder outer box (77B) vaporization explosive force + gravity acceleration Additional energy storage cycle coalescence engine that accelerates downward vertically and uses a method of increasing the amount of concentrated power generation from the existing lens cross-section to the water (52b) pipe with the selected cross-section long lens (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat-insulating material (2c) half-cylinder outer box (77B) vaporization explosive force + gravity acceleration Additional energy conservation cycle coalescence engine that accelerates further vertically downward and maintains heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar heat augmented suspension bridge with a long joint (80A) (2b) vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar heat augmented suspension bridge with a long joint (80A) (2b) vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, divided into various energy storage cycle coalescing engines using a method of increasing power generation by providing a set of multiple long lenses (2d) tightened with a fastener (80B). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar heat augmented suspension bridge with a long joint (80A) (2b) vaporization explosive force in vacuum + Various energy conservation cycle coalescence engines that accelerate the gravitational acceleration vertically downward and make the selected production length lens (2d) long from existing materials and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar heat augmented suspension bridge with a long joint (80A) (2b) vaporization explosive force in vacuum + Energy conservation cycle coalescence engine that accelerates gravitational acceleration vertically downward and uses a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar heat augmented suspension bridge with a long joint (80A) (2b) vaporization explosive force in vacuum + An energy conservation cycle coalescence engine that uses a method of increasing power generation by accelerating gravitational acceleration vertically downward and maintaining a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Air Power Photovoltaic Opposite Series All-Boiled Pusher Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly 0 Degrees + Solar Heating Suspension Bridge (2b) Vaporized Explosion in Vacuum Various energy conservation cycle coalescing engines that increase power generation by increasing force + gravity acceleration vertically downward and increasing the width of the long lens (2d) for tightening the split fastener (80B). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Air Power Photovoltaic Opposite Series All-Boiled Pusher Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly 0 Degrees + Solar Heating Suspension Bridge (2b) Vaporized Explosion in Vacuum Various energy storage cycle coalescing engines that use a method of increasing power generation by accelerating force + gravitational acceleration vertically downward, and dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Air Power Photovoltaic Opposite Series All-Boiled Pusher Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly 0 Degrees + Solar Heating Suspension Bridge (2b) Vaporized Explosion in Vacuum Various energy conservation cycle coalescence engines that accelerate the force + gravitational acceleration vertically downward and make the selected production length lens (2d) long from existing materials and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Air Power Photovoltaic Opposite Series All-Boiled Pusher Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly 0 Degrees + Solar Heating Suspension Bridge (2b) Vaporized Explosion in Vacuum Various energy conservation cycle coalescence engines that accelerate the force + gravitational acceleration vertically downward, and increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Air Power Photovoltaic Opposite Series All-Boiled Pusher Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly 0 Degrees + Solar Heating Suspension Bridge (2b) Vaporized Explosion in Vacuum Various energy conservation cycle coalescing engines that accelerate the force + gravitational acceleration vertically downward and maintain the heat-insulated long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Rotor Wheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified Houses Primed + Vaporized Explosive Force + Gravity Acceleration Added Vertically Downward Various energy storage cycle coalescence engines that accelerate and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Rotor Wheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified Houses Primed + Vaporized Explosive Force + Gravity Acceleration Added Vertically Downward Various energy storage cycle coalescing engines that are accelerated, divided, and provided with a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Rotor Wheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified Houses Primed + Vaporized Explosive Force + Gravity Acceleration Added Vertically Downward Various energy storage cycle coalescence engine that accelerates and uses a method of increasing power generation by lengthening selected production long lens (2d) from existing materials. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Rotor Wheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified Houses Primed + Vaporized Explosive Force + Gravity Acceleration Added Vertically Downward Various energy conservation cycle coalescence engine that accelerates and uses the method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with sunlight by the selected cross section long lens (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Rotor Wheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified Houses Primed + Vaporized Explosive Force + Gravity Acceleration Added Vertically Downward Various energy conservation cycle coalescence engines that accelerate and maintain heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero-photovoltaic power generation Opposite series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + vaporization explosive force in vacuum + acceleration of gravity accelerated vertically downward Then, various energy storage cycle coalescing engines in which the width of the long lens (2d) for tightening the split fastener (80B) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero-photovoltaic power generation Opposite series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + vaporization explosive force in vacuum + acceleration of gravity accelerated vertically downward Then, various energy storage cycle coalescing engines in which a plurality of long lenses (2d) for tightening the fasteners (80B) are provided as a set to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero-photovoltaic power generation Opposite series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + vaporization explosive force in vacuum + acceleration of gravity accelerated vertically downward Then, various energy storage cycle coalescing engines using a method of increasing the amount of power generation by making the selected production long lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero-photovoltaic power generation Opposite series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + vaporization explosive force in vacuum + acceleration of gravity accelerated vertically downward Then, various energy storage cycle coalescing engines using a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero-photovoltaic power generation Opposite series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + vaporization explosive force in vacuum + acceleration of gravity accelerated vertically downward Then, various energy storage cycle coalescing engines in which the heat insulating long lens (2d) and sunlight are maintained in the vicinity of a right angle near the vacuum to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro / pneumatic solar power generation method with zero fuel cost, 0 CO2 exhaust, 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) + in vacuum Various energy storage cycle coalescing engines that accelerate the vaporization explosive force + gravitational acceleration vertically downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro / pneumatic solar power generation method with zero fuel cost, 0 CO2 exhaust, 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into various energy storage cycles using a method of increasing power generation by providing a set of multiple long lenses (2d) for fastening fasteners (80B). organ. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro / pneumatic solar power generation method with zero fuel cost, 0 CO2 exhaust, 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and various energy storage cycle coalescing engines using a method of increasing the power generation amount by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro / pneumatic solar power generation method with zero fuel cost, 0 CO2 exhaust, 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and various energy conservation cycle coalescence engines using a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) . 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro / pneumatic solar power generation method with zero fuel cost, 0 CO2 exhaust, 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and a long heat insulating lens (2d) and sunlight are kept in the vicinity of a right angle in a part close to a vacuum, and various energy conservation cycles are combined to increase power generation. organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and save various energy as a method for increasing power generation Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, divided into multiple sets of multiple length lenses (2d) for tightening the fastener (80B), and various methods for increasing power generation Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) + Energy storage cycle coalescing engine with a method of increasing power generation by accelerating vaporization explosive force + gravitational acceleration in vacuum vertically and making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and various types of energy are used to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d). Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to the vacuum. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar heat-enhanced suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Various energies that increase the power generation amount by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the vaporization explosive force + gravitational acceleration in vacuum + vertically in the vacuum Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening with a fastener (80B) to increase the power generation amount. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Various energy storage cycle coalescing engines with a method of increasing the power generation amount by increasing the length of the selected production length lens (2d) from existing materials by accelerating the vaporization explosive force + gravitational acceleration in a vacuum vertically. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and various methods are used to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) + Vaporization explosive force in gravity + Gravitational acceleration is further accelerated vertically downward, and a heat insulating long lens (2d) and sunlight are maintained in the vicinity of a right angle near the vacuum to increase power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Solar Heater (2) + Vaporization Explosive Power in Vacuum + Gravity acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Solar Heater (2) + Vaporization Explosive Power in Vacuum + Gravity acceleration is further accelerated vertically downward, divided into various energy storage cycle coalescing engines using a method of increasing power generation by providing a set of multiple long lenses (2d) tightened with a fastener (80B). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Solar Heater (2) + Vaporization Explosive Power in Vacuum + Various energy conservation cycle coalescence engines that accelerate the gravitational acceleration vertically downward and make the selected production length lens (2d) long from existing materials and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Solar Heater (2) + Vaporization Explosive Power in Vacuum + Energy conservation cycle coalescence engine that accelerates gravitational acceleration vertically downward and uses a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Solar Heater (2) + Vaporization Explosive Power in Vacuum + An energy conservation cycle coalescence engine that uses a method of increasing power generation by accelerating gravitational acceleration vertically downward and maintaining a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-wing blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles + solar heater (2) + vaporization explosive force in vacuum + Various energy storage cycle coalescence engines that accelerate the gravitational acceleration downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) + vaporization explosive force in vacuum + Various energy storage cycle coalescing engines that accelerate the gravitational acceleration vertically downward, divide and provide a set of multiple long lenses (2d) for tightening the fastener (80B) and using a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-wing blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles + solar heater (2) + vaporization explosive force in vacuum + Various energy conservation cycle coalescing engines that accelerate the gravity acceleration vertically downward and make the selected production length lens (2d) long from existing materials and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-wing blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles + solar heater (2) + vaporization explosive force in vacuum + Various energy conservation cycle coalescence engine that accelerates gravitational acceleration vertically downward, and uses concentrated lens power generation method to increase sunlight to water (52b) pipe from the existing lens cross section with the selected cross section long lens (2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-wing blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles + solar heater (2) + vaporization explosive force in vacuum + Various energy conservation cycle coalescence engines that accelerate the gravitational acceleration vertically downward and maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Various methods for increasing the amount of power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration further downward vertically Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening a fastener (80B) Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Various energy storage cycle coalescence engines with a method of increasing the amount of power generation by increasing the length of the selected production length lens (2d) from existing materials by accelerating the compression heat recovery + vaporization explosive force + gravity acceleration in vacuum vertically downward. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is transferred from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d). Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, and the heat insulation long lens (2d) and sunlight are kept near right angle in the part close to the vacuum, Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, increasing the width of the long lens (2d) for tightening the split fastener (80B) and increasing the amount of power generation Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Compressed heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, combining various energy conservation cycles with a method of increasing power generation by selecting a long lens (2d) to be selected from existing materials organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated on the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Compressed heat recovery of internal air + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, generating heat by maintaining a long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and generate power. Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Internal air is recovered by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long lenses (2d) for tightening the fastener (80B). Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and various energy storage cycles using a selected production length lens (2d) as a lengthy method to increase power generation from existing materials Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Internal air is recovered by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, keeping the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + Vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and combine various energy storage cycles to increase power generation organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + Vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and divided into multiple sets of multiple lenses (2d) for tightening fasteners (80B) to save power and increase energy generation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + Various energy conservation cycle coalescence engine that accelerates vaporization explosive force + gravitational acceleration in vacuum vertically downward, and makes the selected production length lens (2d) long from existing materials and increases the power generation amount. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + Various energy conservation cycles using a method of increasing the amount of concentrated power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward in vacuum and using a cross-section lens (2d) from the existing lens cross section to the water (52b) pipe Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + Vaporization explosive force + gravitational acceleration is accelerated vertically downward in a vacuum, and various types of energy conservation are achieved by maintaining a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum Various energy conservation cycle coalescence engines with a method of increasing power generation by accelerating the vaporization explosive force + gravitational acceleration vertically downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) . 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into multiple energy storage cycles with multiple length lenses (2d) tightened with fasteners (80B) as a set. Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum Various energy conservation cycle coalescing engines that accelerate the vaporization explosive force + gravitational acceleration vertically downward and make the selected production length lens (2d) long from existing materials and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and various energy conservation cycles are combined with the method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d). organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and various energy conservation cycles using a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation Combined organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) with heat pump (1G) to recover compression heat + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening Various energy storage cycle coalescing engines that are used to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) is compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into a multi-lens (2d) for fastening with a fastener (80B) Various energy storage cycle coalescing engines provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) with heat pump (1G) + compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material to increase the power generation amount Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) (52b) Various energy storage cycle coalescing engines with a method of increasing the amount of power generation in the pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle Various energy conservation cycle coalescing engines that are maintained in the above and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, split clamp (80B) tightening long lens (2d) Various energy storage cycle coalescing engines that increase the range of power generation and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, split into multiple long lenses with fastening tool (80B) Various energy storage cycle coalescing engines provided as a method of increasing power generation by providing (2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and select production length lens (2d) from existing material to make power generation amount long Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, and select sunlight from the existing lens cross section with the selected cross section length lens (2d) Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, heat insulation long lens (2d) and sun Various energy conservation cycle coalescing engines that maintain the light near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for tightening split fastener (80B) ) Various energy storage cycle coalescing engines with increased power generation method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Compression heat recovery of internal air (28a) by heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, divided into multiple lengths of fasteners (80B) Various energy storage cycle coalescing engines that use a set of lenses (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Compression heat recovery of internal air (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and power is generated by selecting a selected production length lens (2d) as long Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross section length lens (2d) Various energy storage cycle coalescing engines using a method for increasing the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) The internal air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward, and the long lens (2d) that is insulated at the part approaching the vacuum Various energy conservation cycle coalescing engines that maintain the sunlight near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Compressive heat recovery with pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Compressive heat recovery with pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long lenses (2d) for tightening fasteners (80B). Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Various energy conservation cycles with a method of increasing power generation by using a pump (1G) to accelerate the compression explosive force + gravitational acceleration in a vacuum and vertically accelerating downward in the vertical direction, and making the selected production length lens (2d) long from existing materials Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Compressed heat recovery with pump (1G) + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, and sunlight is concentrated to water (52b) tube with a selected section length lens (2d) from the existing lens section Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Compressive heat recovery with pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulating long lens (2d) and sunlight are maintained at right angles near the part near the vacuum. Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening with a fastener (80B) to generate electricity Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to combine various energy storage cycles using a method of increasing power generation by making the selected production long lens (2d) long. organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated to the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressed heat recovery + Vaporization explosive force + Gravity acceleration in vacuum Accelerate vertically downward, and heat insulation long lens (2d) and sunlight are kept at right angles near the part where power is generated Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the length of the split fastener (80B) tightening Various energy storage cycle coalescing engines with increased power generation by increasing the width of the lens (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, and divide and tighten the clamp (80B) Various energy storage cycle coalescing engines that use a plurality of long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated with a compressed water heat exchanger (2Y) and water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward to select a production long lens (2d) from existing materials Various energy storage cycle coalescing engine that is a long and large power generation method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the cross-sectional length lens (2d) selected from the existing lens cross section Various energy storage cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heat the internal air (28a) with a compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in the vacuum vertically, and insulate the long lens ( 2d) and various energy conservation cycle coalescing engines that maintain sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating the internal air (28a) with the compressed water heat exchanger (2Y) and heating the water (52b) + accelerating the vaporization explosive force + gravitational acceleration in the vacuum vertically, split fastener (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the tightening long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y), the water (52b) is heated + the vaporization explosive force + gravitational acceleration is further accelerated in the vertical downward direction, and divided into the fastening tools ( 80B) Various energy storage cycle coalescing engines in which a plurality of tightened long lenses (2d) are provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Internal air (28a) is compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected from existing materials Various energy storage cycle coalescing engines in which (2d) is long and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a section length from the existing lens section Various energy conservation cycle coalescence engine that uses a lens (2d) to increase sunlight concentration into water (52b) pipes. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + vaporize the explosive force in the vacuum + accelerate the gravitational acceleration vertically downward to insulate the part close to the vacuum Long energy lens (2d) and various energy conservation cycle coalescing engines that maintain sunlight in the vicinity of a right angle and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically, and split the fastener (80B ) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the tightening long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y), the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and divided and tightened. (80B) Various energy storage cycle coalescing engines in which a plurality of tightened long lenses (2d) are provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected production length from existing materials Various energy storage cycle coalescing engines with a long lens (2d) and a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and selected cross section from existing lens cross section Various energy conservation cycle coalescence engine that uses a long lens (2d) to increase the amount of concentrated power generation in the water (52b) pipe with sunlight. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is accelerated vertically downward, and the part close to the vacuum Various energy storage cycle coalescence engine that uses a heat insulating long lens (2d) and sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to divide the clamp (80B) and tighten the long lens (2d) Various energy storage cycle coalescing engines that increase the range of power generation and increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses for fastening the fastener (80B) Various energy storage cycle coalescing engines provided as a method of increasing power generation by providing (2d) as a set. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + Accelerate the vaporization explosive force + gravitational acceleration vertically in the vertical direction, select from existing materials Select the production length lens (2d) as long and generate electricity Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporization explosive force + gravity acceleration in vacuum to accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section long lens (2d) Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporization explosive force + gravity acceleration in vacuum, accelerate vertically downward, heat insulation long lens (2d) and sun Various energy conservation cycle coalescing engines that maintain the light near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) The water (52b) is heated by the compressed water heat exchanger (2Y) + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the long lens (2d) of the divided fastener (80B) is tightened. Various energy conservation cycle coalescing engines with increased width and increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) The water (52b) is heated with a compressed water heat exchanger (2Y) + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward and divided into multiple long lenses (80B) and tightened with a clamp (80B) Various energy storage cycle coalescing engines provided as a method for increasing power generation by providing 2d) as a set. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) Heat the water (52b) with the compressed water heat exchanger (2Y) + add the vaporization explosive force in the vacuum + accelerate the gravitational acceleration vertically downward, and water the sunlight from the existing lens section with the selected section length lens (2d) (52b) Various energy storage cycle coalescing engines with a method for increasing the amount of concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) The water (52b) is heated with a compressed water heat exchanger (2Y) + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and the heat insulating long lens (2d) and sunlight are brought close to the vacuum Is an energy conservation cycle coalescence engine that maintains power in the vicinity of a right angle and increases power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and long lens (2d) for split clamp (80B) tightening ) Various energy storage cycle coalescing engines with increased power generation method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + acceleration of gravitational acceleration further vertically downward, divided into multiple lengths of fastening tool (80B) Various energy storage cycle coalescing engines that use a set of lenses (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + Gravitational acceleration is accelerated in the vertical downward direction in vacuum, and power generation is performed by selecting a selected long lens (2d) from an existing material. Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is accelerated vertically downward, and sunlight is selected from the existing lens cross section with a selected cross-section long lens (2d) Various energy storage cycle coalescing engines using a method for increasing the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and heat insulating long lens (2d) is close to the vacuum. Various energy conservation cycle coalescing engines that maintain the sunlight near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and split fastener (80B) is tightened Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided and clamped (80B) Various energy storage cycle coalescing engines with a plurality of long lenses (2d) attached as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to select from existing materials Long lens (2d) Various energy storage cycle coalescing engine with a long and large power generation method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to select a long lens (2d) ) Various energy storage cycle coalescence engines that use sunlight as a method of increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and a long lens for heat insulation at the part approaching the vacuum (2d) and various energy conservation cycle coalescence engines that maintain sunlight in the vicinity of a right angle and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating of water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + acceleration of gravitational acceleration vertically downward, split fastener (80B) tightening Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + acceleration of gravitational acceleration is added vertically downward and divided into fasteners (80B) Various energy storage cycle coalescing engines that use a set of tightening multiple long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to select from existing materials long lens (2d ) Is an energy storage cycle coalescence engine with a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, select cross-sectional length lens ( 2d) Various energy conservation cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and insulation is long at the part approaching vacuum Various energy storage cycle coalescing engines that maintain the lens (2d) and sunlight in the vicinity of a right angle and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening Various energy storage cycle coalescing engines that have been increased to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with a fastener (80B) Various energy conservation cycle coalescing engines that are used as a method of increasing power generation by providing a set of 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to increase the power generation amount by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Water (52b) is heated with compressed air calorie (28b) + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward, and sunlight is converted into water (52b) from the existing lens cross section with a selected cross section long lens (2d). ) Various energy storage cycle coalescing engine with a method of increasing the amount of power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Vaporization explosive force in gravity + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight at right angle Various energy storage cycle coalescing engines maintained in the vicinity and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Heat water (52b) with air heat (28b) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines that are used to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Heat the water (52b) with the amount of air heat (28b) + vaporize explosive force in vacuum + accelerate the gravitational acceleration vertically downward, and divide the multi-long lens (2d) tightened with the fastener (80B) Various energy storage cycle coalescing engines provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Heating water (52b) with air calorie (28b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase the power generation amount. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Water (52b) is heated with air calorie (28b) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and sunlight is water (52b) from the existing lens cross section with a selected cross-section long lens (2d) Various energy storage cycle coalescing engines with a method of increasing the amount of power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Heat water (52b) with air calorie (28b) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle at the part close to vacuum Various energy conservation cycle coalescing engines that are maintained in the above and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravity acceleration further downward vertically, long lens (80B) tightening split clamp (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of 2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration further downward vertically, divided into multiple fasteners (80B) Various energy storage cycle coalescing engines with a long lens (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection and combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to make the selected production length lens (2d) long Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Water (52b) is heated by compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration is further accelerated vertically downward in the vacuum, and the sun is selected from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescing engines that use a method of increasing the amount of concentrated power generation in a water (52b) tube. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to insulate long lens (2d) near the vacuum And various energy conservation cycle coalescence engines that maintain solar power near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split fastener (80B) tightened Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further vertically downward, split and tightening tool (80B) Various energy storage cycle coalescing engines that use a set of tightening multiple long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heat water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to select from existing materials long lens (2d) ) Is an energy storage cycle coalescence engine with a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward to select a cross-sectional length lens ( 2d) Various energy conservation cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration vertically downward, long heat insulation at the part approaching the vacuum Various energy storage cycle coalescing engines that maintain the lens (2d) and sunlight in the vicinity of a right angle and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating of water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, split fastener (80B) tightened Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the attached long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Water (52b) is heated by compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration is further accelerated vertically downward in the vacuum and divided into fasteners (80B) ) Various energy storage cycle coalescing engines with a method of increasing power generation by providing a plurality of tightening long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and selected from existing materials Various energy storage cycle coalescing engines with 2d) as a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, select cross-section long lens from existing lens cross-section (2d) Various energy storage cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat insulation is applied at the part approaching the vacuum Various energy storage cycle coalescing engines that maintain the long lens (2d) and sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( 28b) heating water (52b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines with increased power generation method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( 28b) water (52b) is heated + fuel is injected and burned + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening (80B) ) Is a set of various energy storage cycle coalescence engines that are used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( 28b) heating water (52b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to increase the power generation amount by making the selected production length lens (2d) long from the existing material Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( Water (52b) is heated in 28b) + fuel injection combustion + vaporization explosive force + gravity acceleration in vacuum is accelerated vertically downward, and sunlight is converted to water (2d) from the existing lens cross section with the selected cross section long lens (2d). 52b) Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( 28b) heating water (52b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sunlight in the part close to the vacuum Various energy conservation cycle coalescing engines maintained near a right angle and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) To heat water (52b) + fuel injection and combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines that have been increased to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) Heating water (52b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) Various energy conservation cycle coalescing engines that are used as a method of increasing power generation by providing a set of 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) Heating water (52b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward to increase the power generation amount by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) To heat water (52b) + fuel injection and combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and sunlight is converted to water (52b) from the existing lens cross section by a selected cross section long lens (2d) ) Various energy storage cycle coalescing engine with a method of increasing the amount of power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) Heating water (52b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are perpendicular Various energy storage cycle coalescing engines maintained in the vicinity and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Increase in force maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) is increased to increase the power generation amount. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Method of increasing power generation by increasing the maximum force + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, dividing and providing a plurality of long lenses (2d) for fastening the fastener (80B) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Various energy storage cycle coalescing engines that increase the power generation amount + increase the power generation amount by accelerating the vaporization explosive force + gravitational acceleration in vacuum vertically downward and making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Increase in force + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and sunlight is converted from the existing lens cross-section to the water (52b) tube with the selected cross-section long lens (2d). Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Increase in power maximum + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat-insulated long lens (2d) and sunlight are kept at right angles near the vacuum to increase power generation Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increase vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increase the vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening the fastener (80B) Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and various energy storage cycles using a method of increasing the power generation amount by making the selected production length lens (2d) long from existing materials Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increase vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated to the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increase vaporization explosive force to the maximum + Vapor explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, keeping the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase vaporization explosive power to the maximum in + Add vaporization explosive force in vacuum + Gravitational acceleration to the vertical downward direction to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate electricity Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase vaporization explosive force to the maximum in + Add vaporization explosive force in vacuum + Gravitational acceleration to additional vertical acceleration, split and provide multiple long lens (2d) with tightening tool (80B) Combined with various energy storage cycle engines that have increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase vaporization explosive force to the maximum in + Add vaporization explosive force in vacuum + Gravitational acceleration to accelerate vertically downward, save various types of energy by increasing the selected production length lens (2d) from existing materials Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase vaporization explosive force to the maximum in + Add vapor explosive force in vacuum + Gravitational acceleration to accelerate vertically downward, and concentrate sunlight on water (52b) tube with selected cross-sectional length lens (2d) from existing lens cross section Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase vaporization explosive force to the maximum in + Accelerate vaporization explosive force + gravitational acceleration in vacuum vertically and maintain heat insulating long lens (2d) and sunlight in the vicinity of right angle near the vacuum. Combined with various energy storage cycle engines that have increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Various explosive force in gravity + Accelerate gravity acceleration vertically downward and increase the width of the long lens (2d) for fastening the split fastener (80B) to increase the amount of power generation. Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of multiple length lenses (2d) for fastening fasteners (80B), and various types of energy for increasing power generation Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, combining various energy storage cycle engines with a method of increasing power generation by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downwards, and various energy conservation is achieved by increasing the amount of concentrated power generation from the existing lens cross-section to the water (52b) tube with the selected cross-section long lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and various energies are used to increase power generation by maintaining a long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + Vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and combine various energy storage cycles to increase power generation organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + Vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and divided into multiple sets of multiple lenses (2d) for tightening fasteners (80B) to save power and increase energy generation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + Various energy conservation cycle coalescence engine that accelerates vaporization explosive force + gravitational acceleration in vacuum vertically downward, and makes the selected production length lens (2d) long from existing materials and increases the power generation amount. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + Various energy conservation cycles using a method of increasing the amount of concentrated power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward in vacuum and using a cross-section lens (2d) from the existing lens cross section to the water (52b) pipe Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + Vaporization explosive force + gravitational acceleration is accelerated vertically downward in a vacuum, and various types of energy conservation are achieved by maintaining a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Various energy storage cycle coalescence engines that accelerate and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Various energy storage cycle coalescing engines that are accelerated, divided, and provided with a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Various energy storage cycle coalescence engine that accelerates and uses a method of increasing power generation by lengthening selected production long lens (2d) from existing materials. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Various energy conservation cycle coalescence engine that accelerates and uses the method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with sunlight by the selected cross section long lens (2d). 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Various energy conservation cycle coalescence engines that accelerate and maintain heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Various energy storage cycle coalescence engines that accelerate and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Various energy storage cycle coalescing engines that are accelerated, divided, and provided with a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Various energy storage cycle coalescence engine that accelerates and uses a method of increasing power generation by lengthening selected production long lens (2d) from existing materials. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Various energy conservation cycle coalescence engine that accelerates and uses the method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with sunlight by the selected cross section long lens (2d). 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Various energy conservation cycle coalescence engines that accelerate and maintain heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward Various energy storage cycle coalescing engines, which are accelerated by increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward Various energy storage cycle coalescence engines that are divided into a plurality of long lenses (2d) that are fastened and divided and fastened with a fastener (80B) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward Various energy storage cycle coalescing engines that have been accelerated from the existing materials and made the method of increasing the amount of power generation by making the selected production length lens (2d) long. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward Various energy storage cycle coalescence engines that accelerate the solar power from the existing lens cross section to the water (52b) pipe with the selected cross-section long lens (2d) and increase the concentrated power generation amount. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward Various energy conservation cycle coalescing engines that accelerate heat generation and maintain a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + Various energy storage cycle coalescence engines that accelerate the gravitational acceleration downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Collecting energy + vaporizing explosive force in vacuum + gravitational acceleration is accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and save energy as a method for increasing power generation Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) heats water (52b) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate electricity Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Method of increasing power generation by heating water (52b) + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Fuel injection and combustion + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward, increasing the width of the long lens (2d) for tightening the split fastener (80B) and increasing the amount of power generation Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + Various energy storage cycle coalescing engines that accelerate the gravitational acceleration vertically downward, divide and provide a set of multiple long lenses (2d) for tightening the fastener (80B) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Various types of methods for increasing power generation by recovering + vaporizing explosive force in vacuum + acceleration of gravity further downward vertically, dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple sets of a long lens (2d) for fastening a fastener (80B) Combined with various energy storage cycle engines that have increased power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Heating water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, divided into multiple long lenses (2d) for fastening fasteners (80B), and a set of power generation Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + Various energy conservation cycle coalescing engines that accelerate the gravity acceleration vertically downward and make the selected production length lens (2d) long from existing materials and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Various energy storage cycle coalescing engines with a method of increasing the amount of power generation by increasing the length of the selected production long lens (2d) from existing materials by accelerating the recovery + vacuum vaporization explosive force + gravity acceleration vertically downward. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to save various types of energy by increasing the production length lens (2d) from existing materials and increasing power generation Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Various energy conservation cycle coalescence engine that heats water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material and the power generation amount is increased. . 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to combine various energy storage cycles with a method of increasing power generation by selecting a long production lens (2d) from existing materials organ. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + Various energy conservation cycle coalescence engine that accelerates gravitational acceleration vertically downward, and uses concentrated lens power generation method to increase sunlight to water (52b) pipe from the existing lens cross section with the selected cross section long lens (2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and various energy is used to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is increased to the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d). Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated to the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + Various energy conservation cycle coalescence engines that accelerate the gravitational acceleration vertically downward and maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat-insulated long lens (2d) and sunlight are kept near right angle in the part close to the vacuum. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to keep the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Combined with various energy storage cycle engines that have increased power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Heating water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of the vacuum. Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the part near the vacuum for power generation Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + Combined engine with various energy conservation cycles that uses a power generation method that accelerates gravitational acceleration vertically downward. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Combined engine with various energy storage cycles that uses a recovery method + a power generation method that accelerates vaporization explosive force + gravitational acceleration vertically downward. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration Additional power storage cycle coalescing engine that accelerates downward vertically. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Various energy storage cycle coalescence engines that use water (52b) as a power generation method that accelerates vaporization explosion force + gravity acceleration in the vertical direction by heating water (52b). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) Various energy conservation cycle coalescing engines that use heat generation, fuel injection and combustion, vaporization explosive force in vacuum, and acceleration of gravitational acceleration vertically downward. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity Various energy storage cycle coalescence engines that accelerate the acceleration vertically further and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity Various energy storage cycle coalescing engines that accelerate the acceleration vertically downward, divide and provide a set of multiple long lenses (2d) for tightening the fasteners (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity Various energy storage cycle coalescing engines that accelerate the acceleration vertically downward and make the selected production length lens (2d) long from existing materials and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity Various energy conservation cycle coalescing engines that accelerate the acceleration vertically downward and increase the amount of concentrated power generation from the existing lens cross-section to the water (52b) pipe with the selected cross-section long lens (2d). 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity Various energy conservation cycle coalescing engines that accelerate the acceleration vertically downward and maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and save various energy as a method for increasing power generation Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, divided into multiple sets of multiple length lenses (2d) for tightening the fastener (80B), and various methods for increasing power generation Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + Energy storage cycle coalescing engine with a method of increasing power generation by accelerating vaporization explosive force + gravitational acceleration in vacuum vertically and making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and various types of energy are used to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d). Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to the vacuum. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B), Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide multiple long lenses (2d) for tightening fasteners (80B) to increase power generation Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + various energy storage cycle coalescence engines that accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically and make the selected production length lens (2d) long from existing materials and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted into a water (52b) tube from the existing lens cross-section with a selected cross-section long lens (2d). Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to vacuum to increase power generation Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Method of increasing the amount of power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the vaporization explosive force + gravitational acceleration in the vertical direction in the light heater (2) + vacuum Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Light heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening fasteners (80B) to generate electricity Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Light heater (2) + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and various energy conservation cycle coalescing engines using a method of increasing power generation by making the selected production length lens (2d) long from existing materials . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is increased from the existing lens cross section to the water (52b) tube with the selected cross-section long lens (2d). Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum. Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Various energy storage cycle coalescing engines that accelerate the vaporization explosive force + gravitational acceleration vertically downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into various energy storage cycles using a method of increasing power generation by providing a set of multiple long lenses (2d) for fastening fasteners (80B). organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and various energy storage cycle coalescing engines using a method of increasing the power generation amount by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and various energy conservation cycle coalescence engines using a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) . 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and a long heat insulating lens (2d) and sunlight are kept in the vicinity of a right angle in a part close to a vacuum, and various energy conservation cycles are combined to increase power generation. organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven to make all kinds of automobiles + surface floating type solar heater (2) + in vacuum Various energy storage cycle coalescing engines that accelerate the vaporization explosive force + gravitational acceleration vertically downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven to make all kinds of automobiles + surface floating type solar heater (2) + in vacuum Various energy conservation cycle coalescing engine that accelerates vaporization explosive force + gravitational acceleration vertically downward, divides and provides a set of multiple long lenses (2d) for fastening fasteners (80B) and uses a method for increasing power generation . 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven to make all kinds of automobiles + surface floating type solar heater (2) + in vacuum Various energy conservation cycle coalescence engines that accelerate the vaporization explosive force + gravitational acceleration vertically downward and make the selected production length lens (2d) long from existing materials and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven to make all kinds of automobiles + surface floating type solar heater (2) + in vacuum Various energy conservation cycle coalescence engine that accelerates vaporization explosive force + gravitational acceleration vertically downward, and uses concentrated lens power generation method to increase the amount of sunlight from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven to make all kinds of automobiles + surface floating type solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and the various energy conservation cycle coalescence engines that use a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation . 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) + Various explosive force in gravity + Accelerate gravity acceleration vertically downward and increase the width of the long lens (2d) for fastening the split fastener (80B) to increase the amount of power generation. Combined organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of multiple length lenses (2d) for fastening fasteners (80B), and various types of energy for increasing power generation Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, combining various energy storage cycle engines with a method of increasing power generation by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downwards, and various energy conservation is achieved by increasing the amount of concentrated power generation from the existing lens cross-section to the water (52b) tube with the selected cross-section long lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and various energies are used to increase power generation by maintaining a long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Method of increasing power generation by accelerating vaporization explosive force + gravitational acceleration in vacuum (2) + vacuum in the vertical direction, and providing a set of multiple long lenses (2d) for fastening fasteners (80B) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vessel (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and various energy storage cycle coalescing engines using a method of increasing the power generation amount by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is transferred from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d). Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and heat-insulating long lens (2d) and sunlight are maintained at right angles near the part where the vacuum is approached. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B), Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide multiple long lenses (2d) for tightening fasteners (80B) to increase power generation Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + various energy storage cycle coalescence engines that accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically and make the selected production length lens (2d) long from existing materials and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted into a water (52b) tube from the existing lens cross-section with a selected cross-section long lens (2d). Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to vacuum to increase power generation Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum Various energy storage cycle coalescing engines that accelerate the vaporization explosive force + gravitational acceleration vertically downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum Various energy conservation cycle coalescing engine that accelerates vaporization explosive force + gravitational acceleration vertically downward, divides and provides a set of multiple long lenses (2d) for fastening fasteners (80B) and uses a method for increasing power generation . 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum Various energy conservation cycle coalescence engines that accelerate the vaporization explosive force + gravitational acceleration vertically downward and make the selected production length lens (2d) long from existing materials and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum Various energy conservation cycle coalescence engine that accelerates vaporization explosive force + gravitational acceleration vertically downward, and uses concentrated lens power generation method to increase the amount of sunlight from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and the various energy conservation cycle coalescence engines that use a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation . 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum Various energy storage cycle coalescing engines that accelerate the explosive force + gravitational acceleration vertically downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum Various energy storage cycle coalescing engines that accelerate the explosive force + gravitational acceleration vertically downward, divide and provide a set of multiple long lenses (2d) for tightening the fastener (80B), and using the method of increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum Various energy conservation cycle coalescence engines that accelerate the explosive force + gravitational acceleration vertically downward and make the selected production length lens (2d) long from existing materials and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum Various energy conservation cycle coalescence engine that accelerates explosive force + gravitational acceleration vertically downward, and uses concentrated lens power generation method to increase sunlight generation power to water (52b) pipe from the existing lens cross section with a selected cross section long lens (2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum Various energy conservation cycle coalescence engines that use a method to increase power generation by accelerating explosive force + gravitational acceleration vertically downward and maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Method of increasing power generation by recovering internal air by compressing heat + Vaporizing explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of long lenses (2d) for fastening fasteners (80B) and power generation amount Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and various energy conservation cycle coalescence engines with a method of increasing power generation by selecting a long production lens (2d) from existing materials . 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to vacuum. Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) The internal air is recovered by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward and divided into a set of multiple long lenses (2d) for tightening fasteners (80B) Various energy storage cycle coalescing engines that have been installed to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and various energy is selected from existing materials to increase the power generation amount by making the selected production length lens (2d) long Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is converted into a water (52b) tube from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescing engines with a method of increasing the amount of power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle near the vacuum Various energy storage cycle coalescing engines that are used to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Combined with various energy storage cycle engines that have increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided and set with multiple length lens (2d) with clamp (80B) Various energy storage cycle coalescing engines that were installed in the plant and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and various types of methods have been adopted to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with a selected cross section long lens (2d) to water (52b) tube Various energy storage cycle coalescing engines that are used as a method of increasing the amount of power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Compressed heat recovery of internal air + Vaporization explosion force in vacuum + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight near right angle Various energy storage cycle coalescing engines that maintain and increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for tightening the fastener (80B) to increase the power generation amount. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Various energy conservation cycle coalescence engines that use heat recovery + vaporization explosive force in vacuum + gravitational acceleration to accelerate vertically downward, and make the selected production length lens (2d) long from existing materials and increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and various methods are used to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Heat recovery + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and a heat insulating long lens (2d) and sunlight are maintained at right angles near the vacuum to increase the amount of power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Collecting energy + vaporizing explosive force in vacuum + gravitational acceleration is accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and save energy as a method for increasing power generation Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Various types of methods for increasing power generation by recovering + vaporizing explosive force in vacuum + acceleration of gravity further downward vertically, dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Various energy storage cycle coalescing engines with a method of increasing the amount of power generation by increasing the length of the selected production long lens (2d) from existing materials by accelerating the recovery + vacuum vaporization explosive force + gravity acceleration vertically downward. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and various energy is used to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat-insulated long lens (2d) and sunlight are kept near right angle in the part close to the vacuum. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compress internal heat (28a) with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is accelerated further vertically downward, and the long lens (2d) of split clamp (80B) tightens Various energy conservation cycle coalescing engines with increased width and increased power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compress internal heat (28a) with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (80B) tightened ( Various energy storage cycle coalescing engines provided as a method for increasing power generation by providing 2d) as a set. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery of internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compress internal heat (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is watered from the existing lens cross section with the selected cross section long lens (2d) (52b) Various energy storage cycle coalescing engines with a method for increasing the amount of concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compress internal heat (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, heat insulating long lens (2d) and sunlight Is an energy conservation cycle coalescence engine that maintains power in the vicinity of a right angle and increases power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + Long lens for fastening split fastener (80B) by accelerating vaporization explosive force + gravitational acceleration vertically downward in vacuum Various energy storage cycle coalescing engines that increase the width of (2d) and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + compressive heat recovery + vaporization explosive force + gravity acceleration in vacuum vertically downward, and divide and tighten fastener (80B) Various energy storage cycle coalescing engines that use a set of multiple long lenses (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum vertically in the vacuum to select and manufacture a long lens (2d) from existing materials Various energy storage cycle coalescing engines as a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + vaporization explosive force + gravitational acceleration in vacuum in the vertical direction, and select cross-section long lens (2d) from existing lens cross section Various energy conservation cycle coalescence engine that uses sunlight as water (52b) pipe to increase concentrated power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + heat generated by compression + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, heat insulating long lens (2d ) And various energy conservation cycle coalescence engines that maintain sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the length of split fastener (80B) tightening Various energy storage cycle coalescing engines with increased power generation by increasing the width of the lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided and clamped (80B) Various energy storage cycle coalescing engines that use a plurality of long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Internal air (28a) is compressed with heat pump (1G) + Explosive force of vaporization + Gravitational acceleration in vacuum is further accelerated vertically downward, and selected production length lens (2d) from existing materials Various energy storage cycle coalescing engine that is a long and large power generation method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to select a cross-section long lens (2d) from the existing lens cross section Various energy storage cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Recover internal air (28a) with heat pump (1G) + Compressive heat recovery + Vaporization explosive force + Gravity acceleration in vacuum vertically and heat insulation long lens ( 2d) and various energy conservation cycle coalescing engines that maintain sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) With a heat pump (1G) to recover the compression heat + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Combined with various energy storage cycle engines that have increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) With a heat pump (1G) + evacuated explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided to set a multi-lens (2d) with a clamp (80B) Various energy storage cycle coalescing engines that were installed in the plant and used as a method for increasing power generation 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) With a heat pump (1G) + Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the power generation amount by making the selected production length lens (2d) long from existing materials Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) With heat pump (1G) + compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, sunlight from the existing lens cross section with a selected cross section long lens (2d) water (52b) tube Various energy storage cycle coalescing engines that are used as a method of increasing the amount of power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) With a heat pump (1G) + Compressive heat recovery + Vaporization explosive force + Gravity acceleration in the vertical direction Accelerate vertically downward, heat insulation long lens (2d) and sunlight near right angle Various energy storage cycle coalescing engines that maintain and increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) The heat pump (1G) recovers compression heat + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening with fastener (80B) Various energy storage cycle coalescing engines that have been installed to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to select various energy from the existing material by selecting a long production lens (2d) and increasing the amount of power generation Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is converted into a water (52b) tube from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescing engines with a method of increasing the amount of power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerate vertically downward to maintain heat insulation long lens (2d) and sunlight near right angle Various energy storage cycle coalescing engines that are used to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically, and tighten the split fastener (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the attached long lens (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and divided into fasteners (80B). ) Various energy storage cycle coalescing engines with a method of increasing power generation by providing a plurality of tightening long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + water (52b) + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, select from existing materials Various energy storage cycle coalescing engines with 2d) as a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is accelerated vertically downward, and the selected cross section length lens is selected from the existing lens cross section. (2d) Various energy storage cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + vaporize the explosive force in gravity + accelerate the gravitational acceleration vertically downward. Various energy storage cycle coalescing engines that maintain the long lens (2d) and sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Various energy storage cycle coalescing engines in which the width of the tightening long lens (2d) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + acceleration of gravity is further accelerated vertically downward and divided and tightened Various energy storage cycle coalescing engines in which a plurality of long lenses (2d) tightened with attachments (80B) are provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Internal air (28a) is compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward and selected from existing materials Various energy storage cycle coalescing engines with a long production length lens (2d) and a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + heat the water (52b) + vaporize explosive force in vacuum + accelerate the gravitational acceleration vertically downward from the cross section of the existing lens Various energy conservation cycle coalescence engines that use a method of increasing the amount of concentrated power generation using sunlight with a selected cross-section long lens (2d) in a water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) The internal air (28a) was heated with the compressed water heat exchanger (2Y) and the water (52b) was heated + vaporized explosive force in the vacuum + gravitational acceleration was accelerated vertically downward to bring it closer to the vacuum Various energy conservation cycle coalescence engine that uses a long lens (2d) that is thermally insulated and sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards, split tightening Various energy storage cycle coalescing engines that use a method of increasing power generation by increasing the width of the long lens (2d) for tightening the tool (80B). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration is further accelerated vertically downward and divided. Various energy storage cycle coalescing engines with a method of increasing power generation by providing a set of multiple long lenses (2d) for tightening a fastener (80B). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy storage cycle coalescing engines with a method of increasing the amount of power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, cross-section of existing lens Various energy storage cycle coalescence engines that use a method of increasing the amount of concentrated power generation from sunlight into a water (52b) pipe with a long section (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heat internal air (28a) with compressed water heat exchanger (2Y) + Heat water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to bring it closer to vacuum Various energy conservation cycle coalescing engines with a method of increasing the amount of power generation by maintaining the heat insulating long lens (2d) and sunlight in the vicinity of a right angle at the part. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heating the air (28a) with the compressed water heat exchanger (2Y) + heating the water (52b) + accelerating the vaporization explosive force + gravitational acceleration vertically downward, and a long lens for tightening the split fastener (80B) Various energy storage cycle coalescing engines that increase the width of (2d) and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, and divide and tighten the fastener (80B) Various energy storage cycle coalescing engines that use a set of multiple long lenses (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the air (28a) with the compressed water heat exchanger (2Y) + heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, select the existing material from the long lens (2d) Various energy storage cycle coalescing engines as a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the air (28a) with the compressed water heat exchanger (2Y) + heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, and select the cross-section length lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engine that uses sunlight as water (52b) pipe to increase concentrated power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the air (28a) with the compressed water heat exchanger (2Y) + heat the water (52b) + vaporize explosive force + gravitational acceleration in the vacuum vertically, and insulate the long lens (2d) near the vacuum ) And various energy conservation cycle coalescence engines that maintain sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) Compressed water heat exchanger (2Y) heats water (52b) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, and long lens (80B) tightening split clamp (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of 2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) is compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, divided into multiple fasteners (80B) Various energy storage cycle coalescing engines with a long lens (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) Compressed water heat exchanger (2Y) heats water (52b) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to make the selected production length lens (2d) long Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) is compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward, and the selected cross section long lens (2d) is used for the sun. Various energy conservation cycle coalescing engines that use a method of increasing the amount of concentrated power generation in a water (52b) tube. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) Compressed water heat exchanger (2Y) heats water (52b) + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward to insulate long lens (2d) near the vacuum And various energy conservation cycle coalescence engines that maintain solar power near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward, and length of split fastener (80B) tightening Various energy storage cycle coalescing engines with increased power generation by increasing the width of the lens (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided and clamped (80B) Various energy storage cycle coalescing engines that use a plurality of long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to select a manufacturing long lens (2d) from existing materials Various energy storage cycle coalescing engine that is a long and large power generation method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Water (52b) is heated by compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward to select a cross-section long lens (2d) from the existing lens cross section Various energy storage cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in gravity + gravitational acceleration is accelerated vertically downward, and heat insulating long lens ( 2d) and various energy conservation cycle coalescing engines that maintain sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Unit (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the tightening long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into fasteners ( 80B) Various energy storage cycle coalescing engines in which a plurality of tightened long lenses (2d) are provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select from existing materials Various energy storage cycle coalescing engines in which (2d) is long and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + additional acceleration of gravity acceleration downward, select cross section length from existing lens cross section Various energy conservation cycle coalescence engine that uses a lens (2d) to increase sunlight concentration into water (52b) pipes. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward to insulate the part close to vacuum Long energy lens (2d) and various energy conservation cycle coalescing engines that maintain sunlight in the vicinity of a right angle and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, split fastener (80B ) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the tightening long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Accelerating gravitational acceleration vertically downward, split and tightening tool (80B) Various energy storage cycle coalescing engines in which a plurality of tightened long lenses (2d) are provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Additional vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected production length from existing materials Various energy storage cycle coalescing engines with a long lens (2d) and a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected cross section from existing lens cross section Various energy conservation cycle coalescence engine that uses a long lens (2d) to increase the amount of concentrated power generation in the water (52b) pipe with sunlight. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, at the part close to vacuum Various energy storage cycle coalescence engine that uses a heat insulating long lens (2d) and sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heating water (52b) with compressed air calorie (28b) of air calorie + vaporizing explosive force in vacuum + acceleration of gravitational acceleration vertically downward, long lens (2d) for tightening split fastener (80B) Various energy storage cycle coalescing engines that increase the range of power generation and increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heating water (52b) with compressed air calorie (28b) of air heat + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward and divided into multiple long lenses for fastening (80B) Various energy storage cycle coalescing engines provided as a method of increasing power generation by providing (2d) as a set. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat of water (52b) with compressed air calorie (28b) of air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and selected from existing materials Select production length lens (2d) as long and generate power Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the water (52b) with the compressed air calorie (28b) of the air calorie + Add vaporization explosive force in the vacuum + Accelerate the gravitational acceleration vertically downward, and select sunlight from the existing lens cross section with the selected cross section long lens (2d) Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heating water (52b) with compressed air calorie (28b) of air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sun Various energy conservation cycle coalescing engines that maintain the light near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heat the water (52b) with the amount of heat of compressed air (28b) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward to the long lens (2d) of the split fastener (80B) Various energy conservation cycle coalescing engines with increased width and increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heating water (52b) with calorie compressed air calorie (28b) + Vaporization explosive force + Gravity acceleration in vacuum is further accelerated vertically downward and divided into multiple long lenses (80B) and tightened with a clamp (80B) Various energy storage cycle coalescing engines provided as a method for increasing power generation by providing 2d) as a set. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heat of water (52b) with compressed air calorie (28b) of heat + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heat water (52b) with compressed air calorie (28b) of heat + Vaporization explosive force + gravity acceleration in vacuum Accelerate vertically downward, and water from the existing lens cross section with a selected cross section length lens (2d) (52b) Various energy storage cycle coalescing engines with a method for increasing the amount of concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heating water (52b) with compressed air calorie (28b) of heat + Evaporating explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sunlight in the part close to vacuum Is an energy conservation cycle coalescence engine that maintains power in the vicinity of a right angle and increases power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and split fastener (80B) is tightened Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Water (52b) is heated by compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration is further accelerated vertically downward in the vacuum, and divided and clamped (80B) Various energy storage cycle coalescing engines with a plurality of long lenses (2d) attached as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and selected from existing materials Long lens (2d) Various energy storage cycle coalescing engine with a long and large power generation method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward to select a cross-section long lens (2d ) Various energy storage cycle coalescence engines that use sunlight as a method of increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection and combustion + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, heat insulating long lens near the vacuum (2d) and various energy conservation cycle coalescence engines that maintain sunlight in the vicinity of a right angle and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Unit (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B ) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the tightening long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) Various energy storage cycle coalescing engines in which a plurality of tightened long lenses (2d) are provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select production length from existing materials Various energy storage cycle coalescing engines with a long lens (2d) and a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected cross section from existing lens cross section Various energy conservation cycle coalescence engine that uses a long lens (2d) to increase the amount of concentrated power generation in the water (52b) pipe with sunlight. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward at the part close to vacuum Various energy storage cycle coalescence engine that uses a heat insulating long lens (2d) and sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, 80B) Various energy storage cycle coalescing engines in which the width of the tightening long lens (2d) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravitational acceleration vertically downward, split and tighten Various energy storage cycle coalescing engines in which a plurality of long lenses (2d) tightened with a tool (80B) are provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to selectively manufacture from existing materials Various energy storage cycle coalescing engines with a long lens (2d) as a long and large power generation method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing lens cross section Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation using sunlight with a long section (2d) and water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and the part approaches vacuum The various energy conservation cycle coalescence engine which used the heat insulation long lens (2d) and sunlight in the right-angle vicinity, and made it the method of increasing electric power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heating water (52b) with the amount of air heat (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, long lens (2d) for tightening split fastener (80B) ) Various energy storage cycle coalescing engines with increased power generation method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heating water (52b) with air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, divided into multiple lengths of fastening tool (80B) Various energy storage cycle coalescing engines that use a set of lenses (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heating water (52b) with air calorie (28b) + Fuel injection combustion + Vaporization explosive force in gravity + Gravitational acceleration is further accelerated vertically downwards, and power is generated by selecting a selected long lens (2d) from an existing material. Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heating water (52b) with air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and sunlight is selected with a cross-section long lens (2d) from the existing lens cross section Various energy storage cycle coalescing engines using a method for increasing the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heat water (52b) with air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and a long lens (2d) for heat insulation in a part close to vacuum Various energy conservation cycle coalescing engines that maintain the sunlight near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Surface Floating Solar Heater (2) (2b) Compressed Air Heat (28b) with water (52b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split clamp (80B) long lens (2d) Various energy storage cycle coalescing engines that increase the range of power generation and increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Surface Floating Solar Heater (2) (2b) Compressed Air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward and divided into a plurality of long lenses for fastening (80B) Various energy storage cycle coalescing engines provided as a method of increasing power generation by providing (2d) as a set. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Surface Floating Solar Heater (2) (2b) Compressed Air Heating water (52b) with heat (28b) + Fuel injection combustion + Vaporization explosive force in gravity + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is made long from existing materials to generate electricity Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Surface Floating Solar Heater (2) (2b) Compressed Air Heat water (52b) with calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross section length lens (2d) Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Surface Floating Solar Heater (2) (2b) Compressed Air Heat water (52b) with heat (28b) + fuel injection combustion + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, heat insulation long lens (2d) and sun Various energy conservation cycle coalescing engines that maintain the light near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosive force is increased to the maximum by + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) is increased to increase the amount of power generation Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosive force is increased to the maximum by + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) with fastening tools (80B) for power generation Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosive force is increased to the maximum by + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to combine various energy conservation cycles with a method of increasing power generation by selecting a long lens (2d) to be selected from existing materials. organ. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosive force is increased to the maximum with + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated into the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosive force is increased to the maximum by + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat insulation is maintained in the vicinity of the long lens (2d) and sunlight in the vicinity of the right angle to generate electricity. Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vaporization explosion force increased to maximum with vessel (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Combined with various energy storage cycle engines that have increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vaporization explosion force increased to maximum with vessel (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided and set with multiple long lens (2d) tightening fastener (80B) Various energy storage cycle coalescing engines that were installed in the plant and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vaporization explosion force increased to maximum with vessel (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials, and various methods for increasing power generation Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vaporization explosive force increased to maximum with vessel (2) + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerate vertically downward, sunlight from the existing lens cross section with a selected cross-section long lens (2d) water (52b) tube Various energy storage cycle coalescing engines that are used as a method of increasing the amount of power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vaporization explosion force increased to maximum with vessel (2) + Vaporization explosion force + gravity acceleration in vacuum Accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle Various energy storage cycle coalescing engines that maintain and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Increase the vaporization explosive force to the maximum with the heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines that are used to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Increase the vaporization explosive force to the maximum with the heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening the fastener (80B) Various energy storage cycle coalescing engines provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Increase the vaporization explosive force to the maximum with the heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material to increase the power generation amount. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Vaporization explosion force increased to maximum with heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is water (52b) from the existing lens cross section with a selected cross section long lens (2d) Various energy storage cycle coalescing engines with a method of increasing the amount of power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) increases vaporization explosive force to the maximum + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle Various energy conservation cycle coalescing engines that are maintained in the above and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Increase to maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) is increased to increase the amount of power generation. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Maximum increase + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B), and a method for increasing power generation Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Increased maximum + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and various energy storage cycle coalescing engines with a method of increasing the power generation amount by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Increase to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is converted from the existing lens cross-section to the water (52b) tube with the selected cross-section long lens (2b). Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Maximum increase + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation long lens (2d) and sunlight are kept near right angle in the part close to the vacuum. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and to increase the power generation amount. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power Increase + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for tightening the fastener (80B), thereby increasing the power generation amount. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power Various energy storage cycle coalescing engines that increase the power generation amount by increasing the length of the selected production length lens (2d) from existing materials by accelerating the vaporization explosive force + gravitational acceleration in a vacuum vertically. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and various methods are used to increase the amount of concentrated power generation from the existing lens cross-section to the water (52b) tube with the selected cross-section long lens (2d) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power + Increase vaporization force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to the vacuum to increase power generation Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Various energy conservation cycle coalescence engines that accelerate vertically downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Various energy storage cycle coalescing engines that accelerate vertically downward, divide and provide a plurality of long lenses (2d) for fastening fasteners (80B) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Various energy storage cycle coalescing engines that accelerate vertically downward and make the selected production long lens (2d) long from existing materials and increase power generation. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Various energy conservation cycle coalescence engine that accelerates vertically downward and uses a method of increasing the amount of concentrated power generation from a cross section of an existing lens to a water (52b) pipe with sunlight of a selected section length lens (2d). 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Various energy conservation cycle coalescence engines that accelerate vertically downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Various energy storage cycle coalescing engines that accelerate vertically downward, divide and provide a plurality of long lenses (2d) for fastening fasteners (80B) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Various energy storage cycle coalescing engines that accelerate vertically downward and make the selected production long lens (2d) long from existing materials and increase power generation. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Various energy conservation cycle coalescence engine that accelerates vertically downward and uses a method of increasing the amount of concentrated power generation from a cross section of an existing lens to a water (52b) pipe with sunlight of a selected section length lens (2d). 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum Various energy conservation cycle coalescence engines that accelerate downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum Additional energy storage cycle coalescence engine that accelerates further vertically downward and divides it into a set of multiple long lenses (2d) tightened with a fastener (80B) to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum Additional energy conservation cycle coalescence engine that accelerates further vertically downward and uses a method of increasing the power generation amount by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum Additional energy storage cycle coalescence engine that accelerates downward vertically and uses a method of increasing the amount of concentrated power generation from the existing lens cross-section to the water (52b) pipe with the selected cross-section long lens (2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum Additional energy conservation cycle coalescence engine that accelerates further vertically downward and maintains heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum Various energy storage cycle coalescing engines that accelerate the explosive force + gravitational acceleration vertically downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heating water (52b) with heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of long lens (2d) for split clamp (80B) tightening Various energy storage cycle coalescing engines that are used to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( In 28b), water (52b) is heated + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate electricity. Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) heating + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum Various energy storage cycle coalescing engines that accelerate the explosive force + gravitational acceleration vertically downward, divide and provide a set of multiple long lenses (2d) for tightening the fastener (80B), and using the method of increasing power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of a long lens (2d) for fastening a fastener (80B) and a method for increasing power generation Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heating water (52b) with heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) Various energy storage cycle coalescing engines provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( In 28b), water (52b) is heated + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, and divided into a plurality of long-length lenses (2d) for fastening a fastener (80B). Combined with various energy storage cycle engines that have increased power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) is heated + fuel injected and combusted + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening with a fastener (80B) Various energy storage cycle coalescing engines that have been installed to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum Various energy conservation cycle coalescence engines that accelerate the explosive force + gravitational acceleration vertically downward and make the selected production length lens (2d) long from existing materials and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and various energy storage cycle coalescing engines using a method of increasing the power generation amount by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heating water (52b) with heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material to increase the power generation amount. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( 28b) Heat water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to save various types of energy by increasing the production length lens (2d) from existing materials and increasing power generation Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) heating + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and various energies are selected from existing materials to make the production length lens (2d) long and increase the amount of power generation Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum Various energy conservation cycle coalescence engine that accelerates explosive force + gravitational acceleration vertically downward, and uses concentrated lens power generation method to increase sunlight generation power to water (52b) pipe from the existing lens cross section with a selected cross section long lens (2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is converted from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d). Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is water from selected lens cross section with selected cross-section long lens (2d) (52b) Various energy storage cycle coalescing engines with a method of increasing the amount of power generation in the pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( 28b) water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) is heated + fuel is injected and burned + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and sunlight is converted into a water (52b) tube from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescing engines with a method of increasing the amount of power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum Various energy conservation cycle coalescence engines that use a method to increase power generation by accelerating explosive force + gravitational acceleration vertically downward and maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part approaching the vacuum. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heating water (52b) with heat exchanger (2Y) + vaporizing explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and heat insulating long lens (2d) and sunlight are close to right angle at the part approaching vacuum Various energy conservation cycle coalescing engines that are maintained in the above and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( 28b) water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Combined with various energy storage cycle engines that have increased power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) is heated + fuel-injected and combusted + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward to keep the heat insulating long lens (2d) and sunlight close to right angle near the vacuum Various energy storage cycle coalescing engines that are used to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum Combined engine with various energy storage cycles that uses a power generation method that accelerates the explosion force + gravitational acceleration vertically downward. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration Additional power storage cycle combined engine that accelerates vertically downward. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Various energy conservation cycle coalescing engines that use a heat exchanger (2Y) to heat water (52b) + vaporization explosive force in vacuum + acceleration of gravity acceleration vertically downward. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( 28b) Heating of water (52b) + vaporization explosive force in vacuum + gravitational acceleration additional energy storage cycle coalescing engine as an electric power generation method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) Various energy conservation cycle coalescence engines that use (52b) heating + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration to accelerate vertically downward. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + Gravity acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + Gravity acceleration is further accelerated vertically downward, divided into various energy storage cycle coalescing engines using a method of increasing power generation by providing a set of multiple long lenses (2d) tightened with a fastener (80B). 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + Various energy conservation cycle coalescence engines that accelerate the gravitational acceleration vertically downward and make the selected production length lens (2d) long from existing materials and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + Energy conservation cycle coalescence engine that accelerates gravitational acceleration vertically downward and uses a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + An energy conservation cycle coalescence engine that uses a method of increasing power generation by accelerating gravitational acceleration vertically downward and maintaining a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Method of increasing power generation by accelerating vaporization explosive force + gravitational acceleration in vacuum (2) + vacuum in the vertical direction, and providing a set of multiple long lenses (2d) for fastening fasteners (80B) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Vessel (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and various energy storage cycle coalescing engines using a method of increasing the power generation amount by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is transferred from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d). Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and heat-insulating long lens (2d) and sunlight are maintained at right angles near the part where the vacuum is approached. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and generate power Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long lenses (2d) for fastening fasteners (80B). Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Equilibrium solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and various energy storage cycles using a selected production length lens (2d) as a lengthy method from existing materials to increase power generation Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) Equivalent solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens section with the selected section length lens (2d) Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) Equivalent solar heater (2) + Vaporization explosive force + Gravitational acceleration in vacuum Accelerate vertically downward, and keep heat-insulated long lens (2d) and sunlight near right angle near the vacuum Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening to generate electricity Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Equivalent solar heater (2) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward, and divided into multiple sets of long lenses (2d) for fastening (80B) Combined with various energy storage cycle engines that have increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar power heater (2) + Vaporization explosive force + Gravitational acceleration in a vacuum. Accelerate downward in the vertical direction, and save various energy by increasing the length of the selected production long lens (2d) from existing materials. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to keep the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Combined with various energy storage cycle engines that have increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Various explosive force in gravity + Accelerate gravity acceleration vertically downward and increase the width of the long lens (2d) for fastening the split fastener (80B) to increase the amount of power generation. Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of multiple length lenses (2d) for fastening fasteners (80B), and various types of energy for increasing power generation Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, combining various energy storage cycle engines with a method of increasing power generation by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downwards, and various energy conservation is achieved by increasing the amount of concentrated power generation from the existing lens cross-section to the water (52b) tube with the selected cross-section long lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and various energies are used to increase power generation by maintaining a long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and combine various energy storage cycles to increase power generation organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and divided into multiple sets of multiple lenses (2d) for tightening fasteners (80B) to save power and increase energy generation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + Various energy conservation cycle coalescence engine that accelerates vaporization explosive force + gravitational acceleration in vacuum vertically downward, and makes the selected production length lens (2d) long from existing materials and increases the power generation amount. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + Various energy conservation cycles using a method of increasing the amount of concentrated power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward in vacuum and using a cross-section lens (2d) from the existing lens cross section to the water (52b) pipe Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force + gravitational acceleration is accelerated vertically downward in a vacuum, and various types of energy conservation are achieved by maintaining a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B), thereby increasing the amount of power generation. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) A method of increasing the amount of power generation by accelerating vaporization explosive force + gravitational acceleration in vacuum additionally vertically and dividing and providing a set of multiple long lenses (2d) for fastening a fastener (80B) Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Combined engine with various energy storage cycles that accelerates vaporization explosion force + gravitational acceleration in a vacuum and vertically increases the selected production length lens (2d) from the existing material and increases the power generation amount. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is transferred from the existing lens cross section to the water (52b) tube with the selected cross-section long lens (2b). Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) A method of increasing the amount of power generation by accelerating the vaporization explosive force + gravitational acceleration in the vacuum vertically and maintaining the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar energy heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, combining various energy storage cycles with a method of increasing power generation by selecting a long production lens (2d) from existing materials organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated into the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of vacuum. Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and generate power Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long lenses (2d) for fastening with a fastener (80B). Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar energy heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and various energy conservation cycles using a selected production length lens (2d) as a method of increasing power generation from existing materials Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) + Vaporization explosive force + Gravitational acceleration in vacuum Accelerate vertically downward, keeping heat insulation long lens (2d) and sunlight close to right angle near the vacuum Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and combine various energy storage cycles to increase power generation organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and divided into multiple sets of multiple lenses (2d) for tightening fasteners (80B) to save power and increase energy generation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + Various energy conservation cycle coalescence engine that accelerates vaporization explosive force + gravitational acceleration in vacuum vertically downward, and makes the selected production length lens (2d) long from existing materials and increases the power generation amount. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + Various energy conservation cycles using a method of increasing the amount of concentrated power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward in vacuum and using a cross-section lens (2d) from the existing lens cross section to the water (52b) pipe Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force + gravitational acceleration is accelerated vertically downward in a vacuum, and various types of energy conservation are achieved by maintaining a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen Various energy conservation cycle coalescence engines with a method of increasing power generation by accelerating the vaporization explosive force + gravitational acceleration vertically downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) . 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into multiple energy storage cycles with multiple length lenses (2d) tightened with fasteners (80B) as a set. Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen Various energy conservation cycle coalescing engines that accelerate the vaporization explosive force + gravitational acceleration vertically downward and make the selected production length lens (2d) long from existing materials and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and various energy conservation cycles are combined with the method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d). organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and various energy conservation cycles using a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation Combined organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Internal air is recovered by compressing heat + Explosive force of vaporization in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate electricity Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Compressed heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of a long lens (2d) for fastening with a fastener (80B) Combined with various energy storage cycle engines that have increased power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and various energy conservation is achieved by increasing the length of the selected production length lens (2d) from the existing material and increasing the power generation amount. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Combined with various energy storage cycle engines that have increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) Solar heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the width of long lens (2d) for split clamp (80B) tightening Various energy storage cycle coalescing engines that have been increased to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) Various energy conservation cycle coalescing engines that are used as a method of increasing power generation by providing a set of 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted into water (52b) from the existing lens cross section with a selected cross section long lens (2d) ) Various energy storage cycle coalescing engine with a method of increasing the amount of power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight at right angles in the part approaching vacuum Various energy storage cycle coalescing engines maintained in the vicinity and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines with increased power generation method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Compressed heat recovery + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with a fastener (80B) ) Is a set of various energy storage cycle coalescence engines that are used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar power heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by selecting a long production lens (2d) from existing materials Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Sunlight heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is removed from the existing lens cross section with the selected cross section long lens (2d) ( 52b) Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the long lens (2d) of heat insulation and sunlight are irradiated in the part approaching the vacuum Various energy conservation cycle coalescing engines maintained near a right angle and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Recovering air by compressing heat + Vaporizing explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B), Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Various energy storage cycle coalescence engines that use a method of increasing the amount of power generation by increasing the length of the selected production long lens (2d) from existing materials by accelerating the compressed heat recovery of the air + vaporization explosive force in vacuum + gravitational acceleration. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, and sunlight is converted into the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d). Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept at right angles near the vacuum to increase power generation Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Method of increasing power generation by recovering compression heat + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and various energy storage cycle coalescing engines using a method of increasing the power generation amount by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is converted into the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum to increase power generation Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Internal air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to provide a long lens (80B) tightening split clamp (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of 2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, and divided into a plurality of fasteners (80B) for fastening. Various energy storage cycle coalescing engines with a long lens (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to make the selected production length lens (2d) long Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Internal air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the sun is selected from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescing engines that use a method of increasing the amount of concentrated power generation in a water (52b) tube. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) The internal air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for heat insulation at the part approaching the vacuum And various energy conservation cycle coalescence engines that maintain solar power near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered with compression heat by heat pump (1G) + Explosive force of vaporization + Gravitational acceleration in vacuum is further accelerated vertically and tightened by split fastener (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) Various energy storage cycle coalescing engines that use a set of tightening multiple long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosion force + Gravitational acceleration in vacuum is further accelerated vertically downward and selected from existing materials Long lens (2d ) Is an energy storage cycle coalescence engine with a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward from the existing lens cross section. 2d) Various energy conservation cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation is long at the part close to vacuum Various energy storage cycle coalescing engines that maintain the lens (2d) and sunlight in the vicinity of a right angle and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further downward vertically, split fastener (80B) tightened Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the attached long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward and divided into fasteners (80B) ) Various energy storage cycle coalescing engines with a method of increasing power generation by providing a plurality of tightening long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select from existing materials Various energy storage cycle coalescing engines with 2d) as a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a long lens from the existing lens cross section (2d) Various energy storage cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal heat (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to insulate the part close to vacuum Various energy storage cycle coalescing engines that maintain the long lens (2d) and sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Compressed heat recovery of air (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines with increased power generation method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into a plurality of long lenses (2d) for fastening with a fastener (80B) ) Is a set of various energy storage cycle coalescence engines that are used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase the amount of power generation Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Air (28a) is recovered by compressing heat with a heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted into water (2d) from the existing lens cross section with the selected cross section long lens (2d) 52b) Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation and sunlight are irradiated near the vacuum. Various energy conservation cycle coalescing engines maintained near a right angle and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air (28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines that have been increased to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) Various energy conservation cycle coalescing engines that are used as a method of increasing power generation by providing a set of 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air (28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is water (52b) from the existing lens cross section with the selected cross section long lens (2d) ) Various energy storage cycle coalescing engine with a method of increasing the amount of power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sunlight at right angle in the part approaching vacuum Various energy storage cycle coalescing engines maintained in the vicinity and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the split fastener ( 80B) Various energy storage cycle coalescing engines in which the width of the tightening long lens (2d) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + acceleration of gravity is accelerated vertically downward, and divided and tightened Various energy storage cycle coalescing engines in which a plurality of long lenses (2d) tightened with a tool (80B) are provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward to selectively produce from existing materials Various energy storage cycle coalescing engines with a long lens (2d) as a long and large power generation method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Internal air (28a) is compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing lens cross section Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation using sunlight with a long section (2d) and water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y), the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is accelerated vertically downward, and the part that is close to the vacuum The various energy conservation cycle coalescence engine which used the heat insulation long lens (2d) and sunlight in the right-angle vicinity, and made it the method of increasing electric power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided Various energy storage cycle coalescing engines in which the width of the long lens (2d) for tightening the fastener (80B) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided Various energy storage cycle coalescing engines provided with a plurality of long lenses (2d) for fastening the fastener (80B) as a set to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Various energy storage cycle coalescing engines with a method of increasing the amount of power generation by making the production long lens (2d) long from the material. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Various energy conservation cycle coalescence engines that use a method to increase the amount of concentrated power generation from sunlight to water (52b) pipes with a long lens (2d) selected from the lens cross section. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, Various energy conservation cycle coalescence engines that use a heat generation long lens (2d) and sunlight in the vicinity of the right angle to maintain a right angle in the vicinity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, Various energy storage cycle coalescing engines in which the width of the long lens (2d) for tightening the split fastener (80B) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, Various energy storage cycle coalescing engines that are divided and provided with a plurality of long lenses (2d) tightened with a fastener (80B) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, Various energy storage cycle coalescing engines with a method of increasing power generation by selecting a long lens (2d) that can be selected from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, Various energy conservation cycle coalescence engines that use a method of increasing the amount of concentrated power generation from sunlight to water (52b) pipes using a long lens (2d) with a long section (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, Various energy conservation cycle coalescing engines that use a heat insulating long lens (2d) and sunlight in the vicinity of a right angle in the vicinity of vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in a vacuum vertically and tighten the split fastener (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with a compressed water heat exchanger (2Y) and heat the water (52b) + vaporize explosive force in vacuum + accelerate the gravitational acceleration vertically downward, and divide and tighten the fastener (80B) Various energy storage cycle coalescing engines that use a set of tightening multiple long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in the vacuum vertically and select from existing materials ) Is an energy storage cycle coalescence engine with a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravity acceleration in the vacuum vertically downward, and select the cross-section long lens ( 2d) Various energy conservation cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with a compressed water heat exchanger (2Y) and heat the water (52b) + vaporization explosive force in vacuum + additional acceleration of gravity in the vertical downward direction, heat insulation at the part approaching the vacuum Various energy storage cycle coalescing engines that maintain the lens (2d) and sunlight in the vicinity of a right angle and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically, and tighten the split fastener (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically and divide and tighten the clamp (80B) Various energy storage cycle coalescing engines with a plurality of long lenses (2d) attached as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating the internal air (28a) with the compressed water heat exchanger (2Y) and heating the water (52b) + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward and selecting from existing materials Long lens (2d) Various energy storage cycle coalescing engine with a long and large power generation method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically in the vacuum, select the cross-section long lens (2d ) Various energy storage cycle coalescence engines that use sunlight as a method of increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y), heat the water (52b) + vaporize explosive force in the vacuum + accelerate the gravitational acceleration vertically downward, heat insulation long lens near the vacuum (2d) and various energy conservation cycle coalescence engines that maintain sunlight in the vicinity of a right angle and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, split fastener (80B) tightened Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the attached long lens (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Water (52b) is heated by compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and divided into fasteners (80B ) Various energy storage cycle coalescing engines with a method of increasing power generation by providing a plurality of tightening long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heat (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and selected from existing materials Various energy storage cycle coalescing engines with 2d) as a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward to select a cross-section long lens from existing lens cross-section (2d) Various energy storage cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation is applied in the part approaching vacuum Various energy storage cycle coalescing engines that maintain the long lens (2d) and sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Various energy storage cycle coalescing engines in which the width of the tightening long lens (2d) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, split and tighten Various energy storage cycle coalescing engines in which a plurality of long lenses (2d) tightened with attachments (80B) are provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various energy storage cycle coalescing engines with a long production length lens (2d) and a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Various energy conservation cycle coalescence engines that use a method of increasing the amount of concentrated power generation using sunlight with a selected cross-section long lens (2d) in a water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration was accelerated vertically downward to bring it closer to vacuum Various energy conservation cycle coalescence engine that uses a long lens (2d) that is thermally insulated and sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, split tightening Various energy storage cycle coalescing engines that use a method of increasing power generation by increasing the width of the long lens (2d) for tightening the tool (80B). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided Various energy storage cycle coalescing engines with a method of increasing power generation by providing a set of multiple long lenses (2d) for tightening a fastener (80B). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy storage cycle coalescing engines with a method of increasing the amount of power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, cross-section of existing lens Various energy storage cycle coalescence engines that use a method of increasing the amount of concentrated power generation from sunlight into a water (52b) pipe with a long section (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of the internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to bring it closer to vacuum Various energy conservation cycle coalescing engines with a method of increasing the amount of power generation by maintaining the heat insulating long lens (2d) and sunlight in the vicinity of a right angle at the part. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating of water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, long lens for split clamp (80B) tightening Various energy storage cycle coalescing engines that increase the width of (2d) and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum, and vertically accelerating and splitting the fastener (80B) Various energy storage cycle coalescing engines that use a set of multiple long lenses (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and the selected production length lens (2d) is long from existing materials Various energy storage cycle coalescing engines as a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Water (52b) is heated by compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is accelerated further downward in the vertical direction, and from a cross section of an existing lens with a selected cross section long lens (2d) Various energy conservation cycle coalescence engine that uses sunlight as water (52b) pipe to increase concentrated power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum, vertically accelerating vertically downward, heat insulating long lens (2d) ) And various energy conservation cycle coalescence engines that maintain sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically, long lens for split clamp (80B) tightening ( Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of 2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple fasteners (80B) Various energy storage cycle coalescing engines with a long lens (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the water (52b) with the compressed air calorie (28b) of the internal air calorie + Accelerate the vaporization explosive force + gravitational acceleration vertically in the vertical direction, select the existing production material from the long lens (2d) Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is accelerated vertically downward, and the sun is selected with a long lens (2d) from the existing lens cross section Various energy conservation cycle coalescing engines that use a method of increasing the amount of concentrated power generation in a water (52b) tube. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating the water (52b) with the compressed air calorie (28b) of the internal air calorie + vaporizing explosive force + gravitational acceleration in the vacuum, vertically accelerating vertically downward, heat insulating long lens (2d) And various energy conservation cycle coalescence engines that maintain solar power near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, split fastener (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the tightening long lens (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward and divided into fasteners ( 80B) Various energy storage cycle coalescing engines in which a plurality of tightened long lenses (2d) are provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and selected from existing materials Various energy storage cycle coalescing engines in which (2d) is long and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, and selected cross section length from existing lens cross section Various energy conservation cycle coalescence engine that uses a lens (2d) to increase sunlight concentration into water (52b) pipes. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating of water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to insulate the part close to vacuum Long energy lens (2d) and various energy conservation cycle coalescing engines that maintain sunlight in the vicinity of a right angle and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Various energy storage cycle coalescing engines that use a method of increasing power generation by increasing the width of the long lens (2d) for tightening the tool (80B). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and divided Various energy storage cycle coalescing engines with a method of increasing power generation by providing a set of multiple long lenses (2d) for tightening a fastener (80B). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy storage cycle coalescing engines with a method of increasing the amount of power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, cross-section of existing lens Various energy storage cycle coalescence engines that use a method of increasing the amount of concentrated power generation from sunlight into a water (52b) pipe with a long section (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards closer to vacuum Various energy conservation cycle coalescing engines with a method of increasing the amount of power generation by maintaining the heat insulating long lens (2d) and sunlight in the vicinity of a right angle at the part. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Various energy storage cycle coalescing engines in which the width of the long lens (2d) for tightening the attachment (80B) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force + Gravitational acceleration is accelerated vertically downward and divided Various energy storage cycle coalescing engines with a method of increasing power generation by providing a set of multiple long lenses (2d) for tightening a clamp (80B). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, existing materials Various energy storage cycle coalescing engines with a method of increasing the amount of power generation by making the production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, existing lens Various energy storage cycle coalescence engines that use a method of increasing the amount of concentrated power generation from sunlight to the water (52b) pipe with a long section lens (2d) selected from the cross section. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in gravity + Gravitational acceleration is accelerated vertically downward to make vacuum Various energy conservation cycle coalescence engines that use a heat insulating long lens (2d) and sunlight in the vicinity of a right angle and keep the sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat of water (52b) with compressed air calorie (28b) + fuel injection and combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, length of split fastener (80B) tightening Various energy storage cycle coalescing engines with increased power generation by increasing the width of the lens (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward and divided and clamped (80B) Various energy storage cycle coalescing engines that use a plurality of long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further vertically downward, select manufacturing long lens (2d) from existing materials Various energy storage cycle coalescing engine that is a long and large power generation method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to select a cross-section long lens (2d) from the existing lens cross section Various energy storage cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration is accelerated vertically downward, and heat insulation long lens ( 2d) and various energy conservation cycle coalescing engines that maintain sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, long lens for split clamp (80B) tightening Various energy storage cycle coalescing engines that increase the width of (2d) and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward and divided into fasteners (80B) Various energy storage cycle coalescing engines that use a set of multiple long lenses (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration in vacuum additional vertical downward acceleration, select production length lens (2d) is long from existing materials Various energy storage cycle coalescing engines as a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescence engine that uses sunlight as water (52b) pipe to increase concentrated power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for heat insulation at the part approaching the vacuum ) And various energy conservation cycle coalescence engines that maintain sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Increase vaporization explosive force to the maximum in + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater In (2), the vaporization explosive force is increased to the maximum + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into a set of multiple long lenses (2d) for tightening the fastener (80B) Various energy storage cycle coalescing engines that have been installed to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and various energy has been selected from existing materials to increase the power generation amount by making the selected production length lens (2d) long Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater In (2), the vaporization explosive force is increased to the maximum + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and sunlight is converted into the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescing engines with a method of increasing the amount of power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to keep the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy storage cycle coalescing engines that are used to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines with increased power generation method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Increase the vaporization explosive force to the maximum with the solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening the fastener (80B) ) Is a set of various energy storage cycle coalescence engines that are used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Increasing the vaporization explosion power to the maximum with the solar heater (2) + Vaporization explosion force in gravity + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from the existing material Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is accelerated vertically downward, and the sunlight from the existing lens cross section with the selected cross-section long lens (2d) ( 52b) Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vaporization explosive force in vacuum + Gravitational acceleration Accelerate vertically downward, and insulate the long lens (2d) and sunlight in the part close to the vacuum Various energy conservation cycle coalescing engines maintained near a right angle and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescing engines with increased width and increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Maximum increase in vaporization explosive force with solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (80B) tightened ( Various energy storage cycle coalescing engines provided as a method for increasing power generation by providing 2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Maximum increase in vaporization explosive force with solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production long lens (2d) long Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Increase vaporization explosive power to maximum with solar heater (2) + Vaporization explosive force in gravity + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) (52b) Various energy storage cycle coalescing engines with a method for increasing the amount of concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Increase the vaporization explosive force to the maximum with the solar heater (2) + Add the vaporization explosive force in vacuum + Gravitational acceleration to the vertical downward direction, heat insulation long lens (2d) and sunlight in the part close to the vacuum Is an energy conservation cycle coalescence engine that maintains power in the vicinity of a right angle and increases power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosive force increased to maximum + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosion force increased to the maximum + Vaporization explosion force + Gravitational acceleration in the vertical direction is further accelerated vertically downward, and divided into multiple sets of a long lens (2d) for fastening the fastener (80B). Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosion force is increased to the maximum + Vaporization explosion force + Gravitational acceleration is further accelerated vertically downward, and various energy storage cycle coalescing engines with a method of increasing power generation by making the selected production long lens (2d) long from existing materials . 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosion force increased to the maximum + Vaporization explosion force + Gravity acceleration in the vertical direction Accelerated vertically downward, increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosive force increased to maximum + vaporization explosive force + gravity acceleration in vacuum Accelerated vertically downward, heat insulation long lens (2d) and sunlight kept near right angle near the vacuum Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Explosive force increased to maximum + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B), Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Increases explosion power to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide multiple sets of long lenses (2d) for fastening (80B) to increase power generation Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Various energy conservation cycle coalescence engines that increase the explosion power to the maximum + vaporization explosion force in vacuum + gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Explosive power increased to maximum + vaporized explosive power in vacuum + acceleration of gravity is accelerated vertically downward, and sunlight is converted from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d). Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Increases explosion power to the maximum + Vaporization explosion force + Gravitational acceleration in vacuum Accelerates vertically downward, increases heat generation by maintaining long lens (2d) and sunlight near right angle near vacuum Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Various energy storage cycle coalescing engines that accelerate the vaporization explosive force + gravitational acceleration vertically downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Various energy conservation cycle coalescing engine that accelerates vaporization explosive force + gravitational acceleration vertically downward, divides and provides a set of multiple long lenses (2d) for fastening fasteners (80B) and uses a method for increasing power generation . 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Various energy conservation cycle coalescence engines that accelerate the vaporization explosive force + gravitational acceleration vertically downward and make the selected production length lens (2d) long from existing materials and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Various energy conservation cycle coalescence engine that accelerates vaporization explosive force + gravitational acceleration vertically downward, and uses concentrated lens power generation method to increase the amount of sunlight from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d). 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and the various energy conservation cycle coalescence engines that use a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation . 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Various energy storage cycle coalescing engines that accelerate the vaporization explosive force + gravitational acceleration vertically downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Various energy conservation cycle coalescing engine that accelerates vaporization explosive force + gravitational acceleration vertically downward, divides and provides a set of multiple long lenses (2d) for fastening fasteners (80B) and uses a method for increasing power generation . 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Various energy conservation cycle coalescence engines that accelerate the vaporization explosive force + gravitational acceleration vertically downward and make the selected production length lens (2d) long from existing materials and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Various energy conservation cycle coalescence engine that accelerates vaporization explosive force + gravitational acceleration vertically downward, and uses concentrated lens power generation method to increase the amount of sunlight from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d). 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and the various energy conservation cycle coalescence engines that use a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation . 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Various energy storage cycle coalescing engines that accelerate the vaporization explosive force + gravitational acceleration vertically downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into various energy storage cycles using a method of increasing power generation by providing a set of multiple long lenses (2d) for fastening fasteners (80B). organ. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and various energy storage cycle coalescing engines using a method of increasing the power generation amount by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and various energy conservation cycle coalescence engines using a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) . 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and a long heat insulating lens (2d) and sunlight are kept in the vicinity of a right angle in a part close to a vacuum, and various energy conservation cycles are combined to increase power generation. organ. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Various methods for increasing the amount of power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration further downward vertically Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) with heat pump (1G) to recover compression heat + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening Various energy storage cycle coalescing engines that are used to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the length of the split fastener (80B) tightening Various energy storage cycle coalescing engines with increased power generation by increasing the width of the lens (2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and long lens (2d) for split clamp (80B) tightening ) Various energy storage cycle coalescing engines with increased power generation method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravity acceleration further downward vertically, long lens (80B) tightening split clamp (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of 2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening a fastener (80B) Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) is compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into a multi-lens (2d) for fastening with a fastener (80B) Various energy storage cycle coalescing engines provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, and divide and tighten the clamp (80B) Various energy storage cycle coalescing engines that use a plurality of long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + acceleration of gravitational acceleration further vertically downward, divided into multiple lengths of fastening tool (80B) Various energy storage cycle coalescing engines that use a set of lenses (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration further downward vertically, divided into multiple fasteners (80B) Various energy storage cycle coalescing engines with a long lens (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Various energy storage cycle coalescence engines with a method of increasing the amount of power generation by increasing the length of the selected production length lens (2d) from existing materials by accelerating the compression heat recovery + vaporization explosive force + gravity acceleration in vacuum vertically downward. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) with heat pump (1G) + compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material to increase the power generation amount Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) The internal air (28a) is heated with a compressed water heat exchanger (2Y) and water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward to select a production long lens (2d) from existing materials Various energy storage cycle coalescing engine that is a long and large power generation method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + Gravitational acceleration is accelerated in the vertical downward direction in vacuum, and power generation is performed by selecting a selected long lens (2d) from an existing material. Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection and combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to make the selected production length lens (2d) long Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is transferred from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d). Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) (52b) Various energy storage cycle coalescing engines with a method of increasing the amount of power generation in the pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the cross-sectional length lens (2d) selected from the existing lens cross section Various energy storage cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is accelerated vertically downward, and sunlight is selected from the existing lens cross section with a selected cross-section long lens (2d) Various energy storage cycle coalescing engines using a method for increasing the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Water (52b) is heated by compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration is further accelerated vertically downward in the vacuum, and the sun is selected from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescing engines that use a method of increasing the amount of concentrated power generation in a water (52b) tube. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, and the heat insulation long lens (2d) and sunlight are kept near right angle in the part close to the vacuum, Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle Various energy conservation cycle coalescing engines that are maintained in the above and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heat the internal air (28a) with a compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in the vacuum vertically, and insulate the long lens ( 2d) and various energy conservation cycle coalescing engines that maintain sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and heat insulating long lens (2d) is close to the vacuum. Various energy conservation cycle coalescing engines that maintain the sunlight near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to insulate long lens (2d) near the vacuum And various energy conservation cycle coalescence engines that maintain solar power near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Combined engine with various energy conservation cycles that uses a method of generating electricity that accelerates the compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration vertically downward. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( Various energy storage cycle coalescing engines, in which 28a) uses a heat pump (1G) to recover compression heat + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Various energy storage cycle coalescence engines that use a power generation method in which internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration in a vacuum. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Various energy storage cycle coalescence engines that use power generation method that heats water (52b) with compressed air calorie (28b) of internal air calorie + accelerates vaporization explosive force + gravitational acceleration in vacuum vertically. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Various energy storage cycle coalescing engines that use power generation method to heat water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravitational acceleration in vacuum vertically. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and save various energy as a method for increasing power generation Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, divided into multiple sets of multiple length lenses (2d) for tightening the fastener (80B), and various methods for increasing power generation Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + Energy storage cycle coalescing engine with a method of increasing power generation by accelerating vaporization explosive force + gravitational acceleration in vacuum vertically and making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and various types of energy are used to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d). Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to the vacuum. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the vertical explosion force + gravitational acceleration in a vacuum, etc. Various energy storage cycle coalescing engines that are used to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near-right angle etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into a multiple length lens (2d) for fastening with a fastener (80B) Various energy storage cycle coalescing engines provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with a selected cross-section long lens (2d) (52b) Various energy storage cycle coalescing engines with a method of increasing the amount of power generation in the pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight near right angle Various energy conservation cycle coalescing engines that are maintained in the above and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) A long lens (2d) for tightening the split fastener (80B) by accelerating the vaporization explosive force + gravitational acceleration in the vertical direction vertically, etc. Various energy storage cycle coalescing engines that increase the range of power generation and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses with fastening tools (80B) Various energy storage cycle coalescing engines provided as a method of increasing power generation by providing (2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is made long from the existing material to generate electricity. Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sun Various energy conservation cycle coalescing engines that maintain the light near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to divide the clamp (80B) tightening long lens (2d) ) Various energy storage cycle coalescing engines with increased power generation method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, divided into multiple lengths of fasteners (80B) Various energy storage cycle coalescing engines that use a set of lenses (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and power is generated with a long lens (2d) selected from existing materials. Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various energy storage cycle coalescing engines using a method for increasing the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation Various energy conservation cycle coalescing engines that maintain the sunlight near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate power Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long-length lenses (2d) for fastening a fastener (80B). Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Solar power heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and various energy storage cycles using a method of increasing power generation by making the selected long lens (2d) long from existing materials Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross-section with the selected cross-section long lens (2d) Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Sunlight heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to maintain heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Solar energy heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, combining various energy storage cycles with a method of increasing power generation by selecting a long production lens (2d) from existing materials organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated into the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of vacuum. Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening Combined with various energy storage cycle engines that have increased power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro / pneumatic solar power generation method with zero fuel cost, 0 CO2 exhaust, 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into various energy storage cycles using a method of increasing power generation by providing a set of multiple long lenses (2d) for fastening fasteners (80B). organ. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials, and various methods are used to increase power generation Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with a selected cross-section long lens (2d) to water (52b) tube Various energy storage cycle coalescing engines that are used as a method of increasing the amount of power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight near right angle Various energy storage cycle coalescing engines that maintain and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescing engines with increased width and increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (80B) for fastening Various energy storage cycle coalescing engines provided as a method for increasing power generation by providing 2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected long lens (2d) long from existing materials Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is watered from the existing lens cross section with the selected cross-section long lens (2d) (52b) Various energy storage cycle coalescing engines with a method for increasing the amount of concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + additional gravitational acceleration in the vertical downward direction, heat insulating long lens (2d) and sunlight Is an energy conservation cycle coalescence engine that maintains power in the vicinity of a right angle and increases power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, long lens (2d) for tightening split fastener (80B) Various energy storage cycle coalescing engines that increase the range of power generation and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature close to absolute 0 degree + solar heat increase suspension bridge (2b) solar heat increase suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses with fastening tools (80B) Various energy storage cycle coalescing engines provided as a method of increasing power generation by providing (2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and the selected production length lens (2d) is made long from existing materials Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sun Various energy conservation cycle coalescing engines that maintain the light near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar energy heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, combining various energy storage cycles with a method of increasing power generation by selecting a long production lens (2d) from existing materials organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated into the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of vacuum. Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Method of increasing the amount of power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the vaporization explosive force + gravitational acceleration in the vertical direction in the light heater (2) + vacuum Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening fasteners (80B) to generate electricity Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and various energy conservation cycle coalescing engines using a method of increasing power generation by making the selected production length lens (2d) long from existing materials . 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is increased from the existing lens cross section to the water (52b) tube with the selected cross-section long lens (2d). Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum. Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, long lens (2d) for tightening split clamp (80B) ) Various energy storage cycle coalescing engines with increased power generation method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple lengths of fasteners (80B) Various energy storage cycle coalescing engines that use a set of lenses (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and power is generated by selecting a selected production length lens (2d) from an existing material Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near-right angle + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected with a long section (2d) from the existing lens cross section Various energy storage cycle coalescing engines using a method for increasing the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) in the part approaching vacuum Various energy conservation cycle coalescing engines that maintain the sunlight near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Compressed heat recovery + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward to divide the clamp (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Compressed heat recovery + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward, and divided and clamped (80B) Various energy storage cycle coalescing engines with a plurality of long lenses (2d) attached as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Compressive heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select from existing materials Manufacturing lens (2d) Various energy storage cycle coalescing engine with a long and large power generation method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air is compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a cross-section lens (2d) ) Various energy storage cycle coalescence engines that use sunlight as a method of increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air is recovered by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and a long lens that insulates near the vacuum (2d) and various energy conservation cycle coalescence engines that maintain sunlight in the vicinity of a right angle and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Close to right angle with sunlight + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, split fastener (80B) tightening Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward and divided into fasteners (80B) Various energy storage cycle coalescing engines that use a set of tightening multiple long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, select from existing materials long lens (2d ) Is an energy storage cycle coalescence engine with a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force + Gravity acceleration in vacuum 2d) Various energy conservation cycle coalescence engines that use sunlight as a method of increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and the heat insulation length is close to the vacuum Various energy storage cycle coalescing engines that maintain the lens (2d) and sunlight in the vicinity of a right angle and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the width of long lens (2d) for split clamp (80B) tightening Various energy storage cycle coalescing engines that have been increased to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) Various energy conservation cycle coalescing engines that are used as a method of increasing power generation by providing a set of 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted into water (52b) from the existing lens cross section with a selected cross section long lens (2d) ) Various energy storage cycle coalescing engine with a method of increasing the amount of power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight at right angles in the part approaching vacuum Various energy storage cycle coalescing engines maintained in the vicinity and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for fastening the split fastener (80B) Various energy storage cycle coalescing engines that are used to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward and divided into multiple length lens (2d) for fastening with clamp (80B) Various energy storage cycle coalescing engines provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Compressed heat recovery + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material to increase power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross-section with a long lens (2d) (52b) Various energy storage cycle coalescing engines with a method of increasing the amount of power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Compressed heat recovery of internal air + Vaporization explosion force in vacuum + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight near right angle Various energy conservation cycle coalescing engines that are maintained in the above and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) + Solar power (2) The internal air (28a) is recovered by compressing heat with a heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener ( 80B) Various energy storage cycle coalescing engines in which the width of the tightening long lens (2d) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) Internal air (28a) with heat pump (1G) recovering compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, divided and tightened Various energy storage cycle coalescing engines in which a plurality of long lenses (2d) tightened with a tool (80B) are provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to selectively manufacture from existing materials Various energy storage cycle coalescing engines with a long lens (2d) as a long and large power generation method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing lens cross section Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation using sunlight with a long section (2d) and water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near the right angle + Solar heater (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and the part approaches vacuum The various energy conservation cycle coalescence engine which used the heat insulation long lens (2d) and sunlight in the right-angle vicinity, and made it the method of increasing electric power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated downward vertically and split Various energy storage cycle coalescing engines in which the width of the long lens (2d) for tightening the fastener (80B) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated downward vertically and split Various energy storage cycle coalescing engines provided with a plurality of long lenses (2d) for fastening the fastener (80B) as a set to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated vertically downward, existing Various energy storage cycle coalescing engines with a method of increasing the amount of power generation by making the production long lens (2d) long from the material. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated vertically downward, existing Various energy conservation cycle coalescence engines that use a method to increase the amount of concentrated power generation from sunlight to water (52b) pipes with a long lens (2d) selected from the lens cross section. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air (28a) with heat pump (1G) to recover heat compression + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, vacuum Various energy conservation cycle coalescence engines that use a heat generation long lens (2d) and sunlight in the vicinity of the right angle to maintain a right angle in the vicinity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, Various energy storage cycle coalescing engines in which the width of the long lens (2d) for tightening the split fastener (80B) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, Various energy storage cycle coalescing engines that are divided and provided with a plurality of long lenses (2d) tightened with a fastener (80B) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, Various energy storage cycle coalescing engines with a method of increasing power generation by selecting a long lens (2d) that can be selected from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, Various energy conservation cycle coalescence engines that use a method of increasing the amount of concentrated power generation from sunlight to water (52b) pipes using a long lens (2d) with a long section (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, Various energy conservation cycle coalescing engines that use a heat insulating long lens (2d) and sunlight in the vicinity of a right angle in the vicinity of vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Internal air (28a) is recovered with compression heat by heat pump (1G) + Explosive force of vaporization + Gravitational acceleration in vacuum is further accelerated vertically and tightened by split fastener (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) Various energy storage cycle coalescing engines that use a set of tightening multiple long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosion force + Gravitational acceleration in vacuum is further accelerated vertically downward and selected from existing materials Long lens (2d ) Is an energy storage cycle coalescence engine with a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward from the existing lens cross section. 2d) Various energy conservation cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation is long at the part close to vacuum Various energy storage cycle coalescing engines that maintain the lens (2d) and sunlight in the vicinity of a right angle and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward, and split fastener (80B) is tightened Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided and clamped (80B) Various energy storage cycle coalescing engines with a plurality of long lenses (2d) attached as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and selected from existing materials Long lens (2d) Various energy storage cycle coalescing engine with a long and large power generation method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) The internal air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward to select a long lens (2d) ) Various energy storage cycle coalescence engines that use sunlight as a method of increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Recover internal air (28a) with heat pump (1G) + evacuate explosive force in vacuum + gravitational acceleration in the vertical downward direction, heat insulation long lens near the vacuum (2d) and various energy conservation cycle coalescence engines that maintain sunlight in the vicinity of a right angle and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward Then, various energy storage cycle coalescing engines in which the width of the long lens (2d) for tightening the split fastener (80B) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward Then, various energy storage cycle coalescing engines in which a plurality of long lenses (2d) for tightening the fasteners (80B) are provided as a set to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward Then, various energy storage cycle coalescing engines using a method of increasing the amount of power generation by making the selected production long lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward Then, various energy storage cycle coalescing engines using a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward Then, various energy storage cycle coalescing engines in which the heat insulating long lens (2d) and sunlight are maintained in the vicinity of a right angle near the vacuum to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum Various energy conservation cycle coalescence engines that accelerate vertically downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum Various energy storage cycle coalescing engines that accelerate vertically downward, divide and provide a plurality of long lenses (2d) for fastening fasteners (80B) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum Various energy storage cycle coalescing engines that accelerate vertically downward and make the selected production long lens (2d) long from existing materials and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum Various energy conservation cycle coalescence engine that accelerates vertically downward and uses a method of increasing the amount of concentrated power generation from a cross section of an existing lens to a water (52b) pipe with sunlight of a selected section length lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum Various energy conservation cycle coalescing engines that accelerate vertically downward and maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum Various energy conservation cycle coalescence engines that accelerate downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum Additional energy storage cycle coalescence engine that accelerates further vertically downward and divides it into a set of multiple long lenses (2d) tightened with a fastener (80B) to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum Additional energy conservation cycle coalescence engine that accelerates further vertically downward and uses a method of increasing the power generation amount by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum Additional energy storage cycle coalescence engine that accelerates downward vertically and uses a method of increasing the amount of concentrated power generation from the existing lens cross-section to the water (52b) pipe with the selected cross-section long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum Additional energy conservation cycle coalescence engine that accelerates further vertically downward and maintains heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided Various energy storage cycle coalescing engines in which the width of the long lens (2d) for tightening the fastener (80B) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided Various energy storage cycle coalescing engines provided with a plurality of long lenses (2d) for fastening the fastener (80B) as a set to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Various energy storage cycle coalescing engines with a method of increasing the amount of power generation by making the production long lens (2d) long from the material. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Various energy conservation cycle coalescence engines that use a method to increase the amount of concentrated power generation from sunlight to water (52b) pipes with a long lens (2d) selected from the lens cross section. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, Various energy conservation cycle coalescence engines that use a heat generation long lens (2d) and sunlight in the vicinity of the right angle to maintain a right angle in the vicinity. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and tightened Various energy storage cycle coalescing engines in which the width of the long lens (2d) for tightening the attachment (80B) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward and divided Various energy storage cycle coalescing engines with a method of increasing power generation by providing a set of multiple long lenses (2d) for tightening a clamp (80B). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Internal air (28a) is compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, existing materials Various energy storage cycle coalescing engines with a method of increasing the amount of power generation by making the production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, existing lens Various energy storage cycle coalescence engines that use a method of increasing the amount of concentrated power generation from sunlight to the water (52b) pipe with a cross-section long lens (2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heat internal air (28a) with compressed water heat exchanger (2Y) + Water (52b) + Vaporization explosive force + Gravity acceleration in vacuum Various energy conservation cycle coalescence engines that use a heat insulating long lens (2d) and sunlight at a right angle near the approaching part to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically Various energy storage cycle coalescing engines in which the width of the long lens (2d) for tightening the split fastener (80B) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically Various energy storage cycle coalescing engines that are divided and provided with a plurality of long lenses (2d) tightened with a fastener (80B) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically Various energy storage cycle coalescing engines with a method of increasing power generation by selecting a long lens (2d) that can be selected from existing materials. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically Various energy conservation cycle coalescence engines that use a method of increasing the amount of concentrated power generation from sunlight to water (52b) pipes using a long lens (2d) with a long section (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically Various energy conservation cycle coalescing engines that use a heat insulating long lens (2d) and sunlight in the vicinity of a right angle in the vicinity of vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy storage cycle coalescence engines that accelerate and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy storage cycle coalescing engines that are accelerated, divided, and provided with a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy storage cycle coalescence engine that accelerates and uses a method of increasing power generation by lengthening selected production long lens (2d) from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy conservation cycle coalescence engine that accelerates and uses the method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with sunlight by the selected cross section long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy conservation cycle coalescence engines that accelerate and maintain heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy storage cycle coalescing engines, which are accelerated by increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy storage cycle coalescence engines that are divided into a plurality of long lenses (2d) that are fastened and divided and fastened with a fastener (80B) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy storage cycle coalescing engines that have been accelerated from the existing materials and made the method of increasing the amount of power generation by making the selected production length lens (2d) long. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy storage cycle coalescence engines that accelerate the solar power from the existing lens cross section to the water (52b) pipe with the selected cross-section long lens (2d) and increase the concentrated power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy conservation cycle coalescing engines that accelerate heat generation and maintain a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Various energy storage cycle coalescing engines in which the width of the tightening long lens (2d) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, split and tighten Various energy storage cycle coalescing engines in which a plurality of long lenses (2d) tightened with attachments (80B) are provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various energy storage cycle coalescing engines with a long production length lens (2d) and a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Various energy conservation cycle coalescence engines that use a method of increasing the amount of concentrated power generation using sunlight with a selected cross-section long lens (2d) in a water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration was accelerated vertically downward to bring it closer to vacuum Various energy conservation cycle coalescence engine that uses a long lens (2d) that is thermally insulated and sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener ( 80B) Various energy storage cycle coalescing engines in which the width of the tightening long lens (2d) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravitational acceleration in vacuum vertically, split and tighten Various energy storage cycle coalescing engines in which a plurality of long lenses (2d) tightened with a tool (80B) are provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various energy storage cycle coalescing engines with a long lens (2d) as a long and large power generation method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing lens cross section Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation using sunlight with a long section (2d) and water (52b) pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the part approaches vacuum The various energy conservation cycle coalescence engine which used the heat insulation long lens (2d) and sunlight in the right-angle vicinity, and made it the method of increasing electric power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward Various energy storage cycle coalescing engines in which the width of the long lens (2d) for tightening the split fastener (80B) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward Various energy storage cycle coalescing engines that are divided into a plurality of long lenses (2d) tightened with a fastener (80B) and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward Various energy storage cycle coalescing engines using a method of increasing the amount of power generation by making the production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward Various energy conservation cycle coalescence engines using a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with sunlight selected from a long section lens (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward Various energy storage cycle coalescing engines that use a heat-insulating long lens (2d) and sunlight in the vicinity of a right angle in the vicinity of vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy storage cycle coalescing engines, which are accelerated by increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy storage cycle coalescence engines that are divided into a plurality of long lenses (2d) that are fastened and divided and fastened with a fastener (80B) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy storage cycle coalescing engines that have been accelerated from the existing materials and made the method of increasing the amount of power generation by making the selected production length lens (2d) long. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy storage cycle coalescence engines that accelerate the solar power from the existing lens cross section to the water (52b) pipe with the selected cross-section long lens (2d) and increase the concentrated power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy conservation cycle coalescing engines that accelerate heat generation and maintain a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical Various energy storage cycle coalescence engines that accelerate downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical Various energy conservation cycle coalescing engines that accelerate downward and divide and use a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical Various energy conservation cycle coalescing engines that accelerate downward and use a method of increasing power generation by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical Various energy conservation cycle coalescence engines that accelerate downwards and use a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross-section long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical Various energy conservation cycle coalescing engines that accelerate downward and maintain heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Various energy storage cycle coalescing engines that use a method of increasing power generation by increasing the width of the long lens (2d) for tightening the tool (80B). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and divided Various energy storage cycle coalescing engines with a method of increasing power generation by providing a set of multiple long lenses (2d) for tightening a fastener (80B). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy storage cycle coalescing engines with a method of increasing the amount of power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, cross-section of existing lens Various energy storage cycle coalescence engines that use a method of increasing the amount of concentrated power generation from sunlight into a water (52b) pipe with a long section (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards closer to vacuum Various energy conservation cycle coalescing engines with a method of increasing the amount of power generation by maintaining the heat insulating long lens (2d) and sunlight in the vicinity of a right angle at the part. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Various energy storage cycle coalescing engines in which the width of the tightening long lens (2d) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, divided and tightened Various energy storage cycle coalescing engines in which a plurality of long lenses (2d) tightened with attachments (80B) are provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various energy storage cycle coalescing engines with a long production length lens (2d) and a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from the existing lens cross section Various energy conservation cycle coalescence engines that use a method of increasing the amount of concentrated power generation using sunlight with a selected cross-section long lens (2d) in a water (52b) pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to bring it closer to vacuum Various energy conservation cycle coalescence engine that uses a long lens (2d) that is thermally insulated and sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Increase the vaporization explosive force to the maximum with the solar heater (2) + Add a vaporization explosive force + gravity acceleration in vacuum to the vertical downward direction in the vacuum and add a long lens (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of 2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Increase the vaporization explosive force to the maximum with the solar heater (2) + increase the vaporization explosive force + gravity acceleration in the vacuum vertically further in the vertical direction, and divide and tighten multiple fasteners (80B) Various energy storage cycle coalescing engines with a long lens (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near-right angle + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to make the selected production length lens (2d) long Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected cross section lens (2d) is used to accelerate the sun Various energy conservation cycle coalescing engines that use a method of increasing the amount of concentrated power generation in a water (52b) tube. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near-right angle + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat insulating long lens (2d) near the vacuum And various energy conservation cycle coalescence engines that maintain solar power near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase the vaporization explosive force to the maximum with the solar heater (2) + Accelerate the vaporization explosive force + gravitational acceleration vertically in the vacuum and tighten the split fastener (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase the vaporization explosive force to the maximum with the solar heater (2) + Accelerate the vaporization explosive force + gravitational acceleration vertically downward in the vacuum, and divide the fastener (80B) Various energy storage cycle coalescing engines that use a set of tightening multiple long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vaporization explosive force + gravitational acceleration in a vacuum vertically in the vacuum and select from existing materials ) Is an energy storage cycle coalescence engine with a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vaporization explosive force in vacuum + Gravitational acceleration in the vertical downward direction, select a cross-section long lens ( 2d) Various energy conservation cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase the vaporization explosive power to the maximum with the solar heater (2) + Add vaporization explosive force + gravity acceleration in the vacuum vertically in the vacuum and lengthen the heat insulation in the part close to the vacuum Various energy storage cycle coalescing engines that maintain the lens (2d) and sunlight in the vicinity of a right angle and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at a right angle + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downwards to tighten the split fastener (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the attached long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at a right angle + Increase the vaporization explosive force to the maximum with the solar heater (2) + Accelerate the vaporization explosive force + gravitational acceleration in the vacuum vertically and divide the fastener (80B) ) Various energy storage cycle coalescing engines with a method of increasing power generation by providing a plurality of tightening long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle to sunlight + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and selected from existing materials Various energy storage cycle coalescing engines with 2d) as a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at a right angle + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward to select a cross-section long lens from the existing lens cross section (2d) Various energy storage cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at a right angle + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in gravity + Gravitational acceleration is accelerated vertically downward, and heat insulation is applied at the part close to vacuum Various energy storage cycle coalescing engines that maintain the long lens (2d) and sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines with increased power generation method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Increase the vaporization explosive force to the maximum with the solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening the fastener (80B) ) Is a set of various energy storage cycle coalescence engines that are used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Increasing the vaporization explosion power to the maximum with the solar heater (2) + Vaporization explosion force in gravity + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from the existing material Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is accelerated vertically downward, and the sunlight from the existing lens cross section with the selected cross-section long lens (2d) ( 52b) Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vaporization explosive force in vacuum + Gravitational acceleration Accelerate vertically downward, and insulate the long lens (2d) and sunlight in the part close to the vacuum Various energy conservation cycle coalescing engines maintained near a right angle and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Increase the vaporization explosive force to the maximum with the light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines that have been increased to generate electricity. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Multi-long lens (2d) tightened with fastener (80B) by accelerating vaporization explosion force + gravity acceleration in vacuum additionally vertically downward by light heater (2) Various energy conservation cycle coalescing engines that are used as a method of increasing power generation by providing a set of 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Increasing the vaporization explosion force to the maximum with the light heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Vaporization explosive force increased to maximum with light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted to water (52b) from the existing lens cross section with a selected cross section long lens (2d) ) Various energy storage cycle coalescing engine with a method of increasing the amount of power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) increases vaporization explosive force to the maximum + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and heat insulating long lens (2d) and sunlight are perpendicular to the part near the vacuum Various energy storage cycle coalescing engines maintained in the vicinity and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Various energy storage cycle coalescing engines that accelerate the vaporization explosive force + gravitational acceleration vertically downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into various energy storage cycles using a method of increasing power generation by providing a set of multiple long lenses (2d) for fastening fasteners (80B). organ. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and various energy storage cycle coalescing engines using a method of increasing the power generation amount by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and various energy conservation cycle coalescence engines using a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) . 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and a long heat insulating lens (2d) and sunlight are kept in the vicinity of a right angle in a part close to a vacuum, and various energy conservation cycles are combined to increase power generation. organ. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Various energy storage cycle coalescing engines that accelerate the vaporization explosive force + gravitational acceleration vertically downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into various energy storage cycles using a method of increasing power generation by providing a set of multiple long lenses (2d) for fastening fasteners (80B). organ. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and various energy storage cycle coalescing engines using a method of increasing the power generation amount by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and various energy conservation cycle coalescence engines using a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) . 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and a long heat insulating lens (2d) and sunlight are kept in the vicinity of a right angle in a part close to a vacuum, and various energy conservation cycles are combined to increase power generation. organ. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum Various energy conservation cycle coalescence engines with a method of increasing power generation by accelerating the vaporization explosive force + gravitational acceleration vertically downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) . 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into multiple energy storage cycles with multiple length lenses (2d) tightened with fasteners (80B) as a set. Combined organization. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum Various energy conservation cycle coalescing engines that accelerate the vaporization explosive force + gravitational acceleration vertically downward and make the selected production length lens (2d) long from existing materials and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and various energy conservation cycles are combined with the method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d). organ. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and various energy conservation cycles using a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation Combined organization. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines that have been increased to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically, and tighten the split fastener (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically, long lens for split clamp (80B) tightening ( Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of 2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, long lens for split clamp (80B) tightening Various energy storage cycle coalescing engines that increase the width of (2d) and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Method of increasing power generation by recovering compression heat + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) Various energy conservation cycle coalescing engines that are used as a method of increasing power generation by providing a set of 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically and divide and tighten the clamp (80B) Various energy storage cycle coalescing engines with a plurality of long lenses (2d) attached as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple fasteners (80B) Various energy storage cycle coalescing engines with a long lens (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward and divided into fasteners (80B) Various energy storage cycle coalescing engines that use a set of multiple long lenses (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and various energy storage cycle coalescing engines using a method of increasing the power generation amount by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating the internal air (28a) with the compressed water heat exchanger (2Y) and heating the water (52b) + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward and selecting from existing materials Long lens (2d) Various energy storage cycle coalescing engine with a long and large power generation method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the water (52b) with the compressed air calorie (28b) of the internal air calorie + Accelerate the vaporization explosive force + gravitational acceleration vertically in the vertical direction, select the existing production material from the long lens (2d) Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration in vacuum additional vertical downward acceleration, select production length lens (2d) is long from existing materials Various energy storage cycle coalescing engines as a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is converted into the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is water (52b) from the existing lens cross section with the selected cross section long lens (2d) ) Various energy storage cycle coalescing engine with a method of increasing the amount of power generation in the pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically in the vacuum, select the cross-section long lens (2d ) Various energy storage cycle coalescence engines that use sunlight as a method of increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is accelerated vertically downward, and the sun is selected with a long lens (2d) from the existing lens cross section Various energy conservation cycle coalescing engines that use a method of increasing the amount of concentrated power generation in a water (52b) tube. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescence engine that uses sunlight as water (52b) pipe to increase concentrated power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum to increase power generation Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sunlight at right angle in the part approaching vacuum Various energy storage cycle coalescing engines maintained in the vicinity and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y), heat the water (52b) + vaporize explosive force in the vacuum + accelerate the gravitational acceleration vertically downward, heat insulation long lens near the vacuum (2d) and various energy conservation cycle coalescence engines that maintain sunlight in the vicinity of a right angle and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating the water (52b) with the compressed air calorie (28b) of the internal air calorie + vaporizing explosive force + gravitational acceleration in the vacuum, vertically accelerating vertically downward, heat insulating long lens (2d) And various energy conservation cycle coalescence engines that maintain solar power near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for heat insulation at the part approaching the vacuum ) And various energy conservation cycle coalescence engines that maintain sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravity acceleration additional power generation method to accelerate vertically downward Combined various energy storage cycle engines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Various energy storage cycle coalescing engines (28a) using a heat pump (1G) as a heat generation method for compressing heat recovery + vaporization explosive force in vacuum + gravitational acceleration accelerated vertically downward. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Various energy storage cycle coalescing engines which use a power generation method in which internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is further accelerated vertically downward. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Various energy storage cycle coalescing engines that use a power generation method that heats water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum vertically. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Various energy storage cycle coalescing engines with power generation method that heats water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravitational acceleration in vacuum vertically. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) + Various explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening with a fastener (80B) to increase the power generation amount. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) Various energy storage cycle coalescing engines with a method of increasing the power generation amount by increasing the length of the selected production length lens (2d) from existing materials by accelerating the vaporization explosive force + gravitational acceleration in a vacuum vertically. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and various methods are used to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) + Vaporization explosive force in gravity + Gravitational acceleration is further accelerated vertically downward, and a heat insulating long lens (2d) and sunlight are maintained in the vicinity of a right angle near the vacuum to increase power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening Various energy storage cycle coalescing engines that have been increased to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening (80B) Various energy conservation cycle coalescing engines that are used as a method of increasing power generation by providing a set of 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right up and down etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material to increase the power generation amount Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is taken from the existing lens cross section with a selected cross-sectional length lens (2d) (52b) ) Various energy storage cycle coalescing engine with a method of increasing the amount of power generation in the pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up, etc. + Solar heater (2) + Vaporization explosive force + Gravity acceleration in vacuum Accelerate vertically downward, heat insulation long lens (2d) and sunlight at right angle Various energy storage cycle coalescing engines maintained in the vicinity and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for tightening the split fastener (80B) ) Various energy storage cycle coalescing engines with increased power generation method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, divided into multiple lengths of fastening tool (80B) Various energy storage cycle coalescing engines that use a set of lenses (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Left and right up and down etc. with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and selected long lens (2d) is selected from existing materials for power generation Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various energy storage cycle coalescing engines using a method for increasing the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and a long lens (2d) for heat insulation is used near the vacuum. Various energy conservation cycle coalescing engines that maintain the sunlight near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right and up with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to divide the long lens (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of 2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward and divided into multiple fasteners (80B) Various energy storage cycle coalescing engines with a long lens (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to make the selected production length lens (2d) long Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up, etc. with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and the sun is selected from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescing engines that use a method of increasing the amount of concentrated power generation in a water (52b) tube. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down, etc. + Solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and a long lens (2d) for heat insulation at the part close to the vacuum And various energy conservation cycle coalescence engines that maintain solar power near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening to generate electricity Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening (80B) Combined with various energy storage cycle engines that have increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to save various types of energy by increasing the length of the selected production length lens (2d) from the existing material. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross-section with the selected cross-section long lens (2d) Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force + Gravity acceleration in vacuum Accelerate vertically downward, and keep the long lens (2d) of heat insulation and sunlight close to right angle near the vacuum. Combined with various energy storage cycle engines that have increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate power Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long-length lenses (2d) for fastening a fastener (80B). Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Solar power heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and various energy storage cycles using a method of increasing power generation by making the selected long lens (2d) long from existing materials Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross-section with the selected cross-section long lens (2d) Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Sunlight heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to maintain heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines that are used to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward and divided into a multiple length lens (2d) for fastening with a fastener (80B) Various energy storage cycle coalescing engines provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) (52b) Various energy storage cycle coalescing engines with a method of increasing the amount of power generation in the pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight near right angle near the vacuum Various energy conservation cycle coalescing engines that are maintained in the above and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Left and right and up with a hanging tool + solar heater (2) + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, long lens (2d) for tightening split fastener (80B) Various energy storage cycle coalescing engines that increase the range of power generation and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Left and right and up with a hanging tool + solar heater (2) + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, divided into multiple long lenses for fastening (80B) Various energy storage cycle coalescing engines provided as a method of increasing power generation by providing (2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is made long from the existing material. Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation and the sun are close to the vacuum. Various energy conservation cycle coalescing engines that maintain the light near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a hanging tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for split fastening (80B) fastening ) Various energy storage cycle coalescing engines with increased power generation method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple lengths of fastening tool (80B) Various energy storage cycle coalescing engines that use a set of lenses (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to select a long lens (2d) to be produced from existing materials for power generation Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various energy storage cycle coalescing engines using a method for increasing the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a hanging tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation in the part approaching the vacuum Various energy conservation cycle coalescing engines that maintain the sunlight near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate power Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long-length lenses (2d) for fastening a fastener (80B). Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar power heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and various energy storage cycles using a method of increasing power generation by making the selected long lens (2d) long from existing materials Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross-section with the selected cross-section long lens (2d) Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Sunlight heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to maintain heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar energy heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, combining various energy storage cycles with a method of increasing power generation by selecting a long production lens (2d) from existing materials organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated into the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescing engine as an increase method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of vacuum. Various energy storage cycle coalescing engines with increased quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, long lens for split clamp (80B) tightening ( Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of 2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, divided into multiple fasteners (80B) tightening Various energy storage cycle coalescing engines with a long lens (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward to make the selected production length lens (2d) long Various energy storage cycle coalescing engines with increased power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) Compressive heat recovery of internal air + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward and the sun is selected from the existing lens cross section with the selected cross section length lens (2d) Various energy conservation cycle coalescing engines that use a method of increasing the amount of concentrated power generation in a water (52b) tube. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) internal heat recovery + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, heat insulating long lens near the vacuum (2d) And various energy conservation cycle coalescence engines that maintain solar power near right angles and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar light heater (2) Compressed heat recovery + Evaporative explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split fastener (80B) is tightened Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) Various energy storage cycle coalescing engines that use a set of tightening multiple long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) Compressive heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select from existing materials Manufacturing lens (2d ) Is an energy storage cycle coalescence engine with a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar light heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a cross-section long lens ( 2d) Various energy conservation cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar light heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation in the part near the vacuum Various energy storage cycle coalescing engines that maintain the lens (2d) and sunlight in the vicinity of a right angle and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with the lifting tool + Solar heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to divide the clamp (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the attached long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) ) Various energy storage cycle coalescing engines with a method of increasing power generation by providing a plurality of tightening long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a hanging tool + Solar heating (2) Compressed heat recovery of the internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a production length lens (existing material) Various energy storage cycle coalescing engines with 2d) as a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + Solar heater (2) Compressed heat recovery of the internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a long section from the existing lens cross section (2d) Various energy storage cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting device + Solar heater (2) Compressed heat recovery of the internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to insulate the part close to the vacuum Various energy storage cycle coalescing engines that maintain the long lens (2d) and sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines with increased power generation method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with a fastener (80B) ) Is a set of various energy storage cycle coalescence engines that are used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar power heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to increase the amount of power generation by selecting a long production lens (2d) from existing materials Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) ( 52b) Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Sunlight heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight in the part close to vacuum Various energy conservation cycle coalescing engines maintained near a right angle and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the width of long lens (2d) for split clamp (80B) tightening Various energy storage cycle coalescing engines that have been increased to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) Various energy conservation cycle coalescing engines that are used as a method of increasing power generation by providing a set of 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted into water (52b) from the existing lens cross section with a selected cross section long lens (2d) ) Various energy storage cycle coalescing engine with a method of increasing the amount of power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight at right angles in the part approaching vacuum Various energy storage cycle coalescing engines maintained in the vicinity and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) internal heat (28a) compression heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, split fastener (80B) Various energy storage cycle coalescing engines in which the width of the tightening long lens (2d) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, divided and tightened Various energy storage cycle coalescing engines in which a plurality of long lenses (2d) tightened with attachments (80B) are provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) Internal air (28a) compression heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward and selected from existing materials Various energy storage cycle coalescing engines with a long production length lens (2d) and a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) internal air (28a) compression heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward from the existing lens cross section Various energy conservation cycle coalescence engines that use a method of increasing the amount of concentrated power generation using sunlight with a selected cross-section long lens (2d) in a water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) Internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward to approach the vacuum Various energy conservation cycle coalescence engine that uses a long lens (2d) that is thermally insulated and sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, Various energy storage cycle coalescing engines in which the width of the long lens (2d) for tightening the split fastener (80B) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, Various energy storage cycle coalescing engines that are divided and provided with a plurality of long lenses (2d) tightened with a fastener (80B) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, Various energy storage cycle coalescing engines with a method of increasing power generation by selecting a long lens (2d) that can be selected from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, Various energy conservation cycle coalescence engines that use a method of increasing the amount of concentrated power generation from sunlight to water (52b) pipes using a long lens (2d) with a long section (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, Various energy conservation cycle coalescing engines that use a heat insulating long lens (2d) and sunlight in the vicinity of a right angle in the vicinity of vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward Various energy storage cycle coalescing engines in which the width of the long lens (2d) for tightening the split fastener (80B) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward Various energy storage cycle coalescing engines that are divided into a plurality of long lenses (2d) tightened with a fastener (80B) and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward Various energy storage cycle coalescing engines using a method of increasing the amount of power generation by making the production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward Various energy conservation cycle coalescence engines using a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with sunlight selected from a long section lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward Various energy storage cycle coalescing engines that use a heat-insulating long lens (2d) and sunlight in the vicinity of a right angle in the vicinity of vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Explosive force of vaporization in vacuum + Gravitational acceleration is further accelerated vertically downward and split fastener (80B) is tightened Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the attached long lens (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) ) Various energy storage cycle coalescing engines with a method of increasing power generation by providing a plurality of tightening long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Recover internal air (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated vertically downward, select from existing materials Various energy storage cycle coalescing engines with 2d) as a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Internal air (28a) with heat pump (1G) recovering heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to select a cross-section long lens from the existing lens cross section (2d) Various energy storage cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Internal air (28a) with heat pump (1G) recovering compression heat + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, heat insulation at the part approaching vacuum Various energy storage cycle coalescing engines that maintain the long lens (2d) and sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered with compression heat by heat pump (1G) + Explosive force of vaporization + Gravitational acceleration in vacuum is further accelerated vertically and tightened by split fastener (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) Various energy storage cycle coalescing engines that use a set of tightening multiple long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosion force + Gravitational acceleration in vacuum is further accelerated vertically downward and selected from existing materials Long lens (2d ) Is an energy storage cycle coalescence engine with a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward from the existing lens cross section. 2d) Various energy conservation cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation is long at the part close to vacuum Various energy storage cycle coalescing engines that maintain the lens (2d) and sunlight in the vicinity of a right angle and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Various energy storage cycle coalescence engines that accelerate and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Various energy storage cycle coalescing engines that are accelerated, divided, and provided with a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Various energy storage cycle coalescence engine that accelerates and uses a method of increasing power generation by lengthening selected production long lens (2d) from existing materials. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Various energy conservation cycle coalescence engine that accelerates and uses the method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with sunlight by the selected cross section long lens (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Various energy conservation cycle coalescence engines that accelerate and maintain heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum Various energy conservation cycle coalescence engines that accelerate downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum Additional energy storage cycle coalescence engine that accelerates further vertically downward and divides it into a set of multiple long lenses (2d) tightened with a fastener (80B) to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum Additional energy conservation cycle coalescence engine that accelerates further vertically downward and uses a method of increasing the power generation amount by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum Additional energy storage cycle coalescence engine that accelerates downward vertically and uses a method of increasing the amount of concentrated power generation from the existing lens cross-section to the water (52b) pipe with the selected cross-section long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum Additional energy conservation cycle coalescence engine that accelerates further vertically downward and maintains heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration The energy conservation cycle coalescing engine is a method of increasing the amount of power generation by accelerating the additional vertical downward and increasing the width of the long lens (2d) for tightening the split fastener (80B). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration The energy conservation cycle coalescing engine is a method of increasing the amount of power generation by accelerating vertically downward, dividing and providing a set of multiple long lenses (2d) for fastening the fastener (80B). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration The energy storage cycle coalescing engine which accelerates downward vertically and uses a method of increasing the power generation amount by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration The energy conservation cycle coalescing engine is a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration The energy storage cycle coalescing engine is a method for increasing the amount of power generation by accelerating the vertical downward and maintaining the heat insulating long lens (2d) and sunlight in the vicinity of a right angle in the part close to the vacuum. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, Various energy storage cycle coalescing engines in which the width of the long lens (2d) for tightening the split fastener (80B) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, Various energy storage cycle coalescing engines that are divided and provided with a plurality of long lenses (2d) tightened with a fastener (80B) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, Various energy storage cycle coalescing engines with a method of increasing power generation by selecting a long lens (2d) that can be selected from existing materials. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, Various energy conservation cycle coalescence engines that use a method of increasing the amount of concentrated power generation from sunlight to water (52b) pipes using a long lens (2d) with a long section (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, Various energy conservation cycle coalescing engines that use a heat insulating long lens (2d) and sunlight in the vicinity of a right angle in the vicinity of vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided Various energy storage cycle coalescing engines in which the width of the long lens (2d) for tightening the fastener (80B) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided Various energy storage cycle coalescing engines provided with a plurality of long lenses (2d) for fastening the fastener (80B) as a set to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Various energy storage cycle coalescing engines with a method of increasing the amount of power generation by making the production long lens (2d) long from the material. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Various energy conservation cycle coalescence engines that use a method to increase the amount of concentrated power generation from sunlight to water (52b) pipes with a long lens (2d) selected from the lens cross section. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, Various energy conservation cycle coalescence engines that use a heat generation long lens (2d) and sunlight in the vicinity of the right angle to maintain a right angle in the vicinity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Various energy storage cycle coalescing engines in which the width of the long lens (2d) for tightening the split fastener (80B) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Various energy storage cycle coalescing engines that are divided into a plurality of long lenses (2d) tightened with a fastener (80B) and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Various energy storage cycle coalescing engines using a method of increasing the amount of power generation by making the production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Various energy conservation cycle coalescence engines using a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with sunlight selected from a long section lens (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Various energy storage cycle coalescing engines that use a heat-insulating long lens (2d) and sunlight in the vicinity of a right angle in the vicinity of vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy storage cycle coalescing engines, which are accelerated by increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy storage cycle coalescence engines that are divided into a plurality of long lenses (2d) that are fastened and divided and fastened with a fastener (80B) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy storage cycle coalescing engines that have been accelerated from the existing materials and made the method of increasing the amount of power generation by making the selected production length lens (2d) long. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy storage cycle coalescence engines that accelerate the solar power from the existing lens cross section to the water (52b) pipe with the selected cross-section long lens (2d) and increase the concentrated power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Various energy conservation cycle coalescing engines that accelerate heat generation and maintain a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically Various energy storage cycle coalescence engines that accelerate downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically Various energy conservation cycle coalescing engines that accelerate downward and divide and use a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically Various energy conservation cycle coalescing engines that accelerate downward and use a method of increasing power generation by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically Various energy conservation cycle coalescence engines that accelerate downwards and use a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross-section long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically Various energy conservation cycle coalescing engines that accelerate downward and maintain heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Various energy storage cycle coalescing engines that use a method of increasing power generation by increasing the width of the long lens (2d) for tightening the tool (80B). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Accelerating gravity acceleration additional vertically downward and dividing Various energy storage cycle coalescing engines with a method of increasing power generation by providing a set of multiple long lenses (2d) for tightening a fastener (80B). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy storage cycle coalescing engines with a method of increasing the amount of power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, cross section of existing lens Various energy storage cycle coalescence engines that use a method of increasing the amount of concentrated power generation from sunlight into a water (52b) pipe with a long section (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Sunlight heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downwards, approaching vacuum Various energy conservation cycle coalescing engines with a method of increasing the amount of power generation by maintaining the heat insulating long lens (2d) and sunlight in the vicinity of a right angle at the part. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Various energy storage cycle coalescing engines in which the width of the tightening long lens (2d) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, split and tighten Various energy storage cycle coalescing engines in which a plurality of long lenses (2d) tightened with attachments (80B) are provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various energy storage cycle coalescing engines with a long production length lens (2d) and a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Various energy conservation cycle coalescence engines that use a method of increasing the amount of concentrated power generation using sunlight with a selected cross-section long lens (2d) in a water (52b) pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration was accelerated vertically downward to bring it closer to vacuum Various energy conservation cycle coalescence engine that uses a long lens (2d) that is thermally insulated and sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward Various energy storage cycle coalescing engines in which the width of the long lens (2d) for tightening the split fastener (80B) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward Various energy storage cycle coalescing engines that are divided into a plurality of long lenses (2d) tightened with a fastener (80B) and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward In addition, various energy storage cycle coalescence engines using a method of increasing the amount of power generation by making the selected production long lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward Various energy conservation cycle coalescence engines using a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross-section long lens (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward In addition, various energy storage cycle coalescing engines that use a heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically Various energy storage cycle coalescence engines that accelerate downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically Various energy conservation cycle coalescing engines that accelerate downward and divide and use a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically Various energy conservation cycle coalescing engines that accelerate downward and use a method of increasing power generation by making the selected production length lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically Various energy conservation cycle coalescence engines that accelerate downwards and use a method of increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross-section long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically Various energy conservation cycle coalescing engines that accelerate downward and maintain heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added Various energy conservation cycle coalescence engines that accelerate vertically downward and increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added Various energy storage cycle coalescing engines that accelerate vertically downward, divide and provide a plurality of long lenses (2d) for fastening fasteners (80B) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added Various energy storage cycle coalescing engines that accelerate vertically downward and make the selected production long lens (2d) long from existing materials and increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added Various energy conservation cycle coalescence engine that accelerates vertically downward and uses a method of increasing the amount of concentrated power generation from a cross section of an existing lens to a water (52b) pipe with sunlight of a selected section length lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added Various energy conservation cycle coalescing engines that accelerate vertically downward and maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Various energy storage cycle coalescing engines in which the width of the long lens (2d) for tightening the attachment (80B) is increased and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided Various energy storage cycle coalescing engines with a method of increasing power generation by providing a set of multiple long lenses (2d) for tightening a clamp (80B). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, existing materials Various energy storage cycle coalescing engines with a method of increasing the amount of power generation by making the production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, existing lens Various energy storage cycle coalescence engines that use a method of increasing the amount of concentrated power generation from sunlight to the water (52b) pipe with a cross-section long lens (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward Various energy conservation cycle coalescence engines that use a heat insulating long lens (2d) and sunlight at a right angle near the approaching part to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Various energy storage cycle coalescing engines that use a method of increasing power generation by increasing the width of the long lens (2d) for tightening the tool (80B). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and divided Various energy storage cycle coalescing engines with a method of increasing power generation by providing a set of multiple long lenses (2d) for tightening a fastener (80B). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy storage cycle coalescing engines with a method of increasing the amount of power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, cross-section of existing lens Various energy storage cycle coalescence engines that use a method of increasing the amount of concentrated power generation from sunlight into a water (52b) pipe with a long section (2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards closer to vacuum Various energy conservation cycle coalescing engines with a method of increasing the amount of power generation by maintaining the heat insulating long lens (2d) and sunlight in the vicinity of a right angle at the part. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, long lens for split clamp (80B) tightening Various energy storage cycle coalescing engines that increase the width of (2d) and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) Various energy storage cycle coalescing engines that use a set of multiple long lenses (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a long lens (2d) from the existing material Various energy storage cycle coalescing engines as a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right up and down + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and from existing lens cross section with selected cross section length lens (2d) Various energy conservation cycle coalescence engine that uses sunlight as water (52b) pipe to increase concentrated power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) ) And various energy conservation cycle coalescence engines that maintain sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Lift the left and right and up with the lifting tool + Increase the vaporization explosive force to the maximum with the solar heater (2) + Accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically and tighten the split fastener (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the attached long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Left and right and up with the lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) ) Various energy storage cycle coalescing engines with a method of increasing power generation by providing a plurality of tightening long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase / decrease the vaporization explosive force to the maximum with a solar heater (2) + Add vaporization explosive force in gravity + Gravitational acceleration in the vertical downward direction, select from existing materials Various energy storage cycle coalescing engines with 2d) as a method of increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase and decrease the vaporization explosion force to the maximum with the solar heater (2) + Add vaporization explosion force in gravity + Gravitational acceleration in the vertical downward direction, select a cross-section long lens from the existing lens cross section (2d) Various energy storage cycle coalescence engines that use sunlight as a method for increasing the amount of power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase / decrease the vaporization explosion force with the solar heater (2) + Increase vaporization explosion force + gravitational acceleration in the vacuum vertically in the vacuum, heat insulation in the part close to the vacuum Various energy storage cycle coalescing engines that maintain the long lens (2d) and sunlight in the vicinity of a right angle to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Various energy storage cycle coalescing engines with a method of increasing power generation by increasing the width of the tightening long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with the lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners ( 80B) Various energy storage cycle coalescing engines in which a plurality of tightened long lenses (2d) are provided as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and selected from existing materials Various energy storage cycle coalescing engines in which (2d) is long and the power generation amount is increased. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and selected cross-section length from existing lens cross section Various energy conservation cycle coalescence engine that uses a lens (2d) to increase sunlight concentration into water (52b) pipes. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward to insulate the part close to the vacuum Long energy lens (2d) and various energy conservation cycle coalescing engines that maintain sunlight in the vicinity of a right angle and increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is further accelerated vertically downward, and the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescing engines with increased width and increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (80B) tightened ( Various energy storage cycle coalescing engines provided as a method for increasing power generation by providing 2d) as a set. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase in vaporization and explosion force to maximum with solar heater (2) + Vaporization and explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production lens (2d) long from existing materials Various energy conservation cycle coalescence engine as a method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vapor explosive force in the vacuum + Gravitational acceleration to accelerate vertically downward, and water from the existing lens cross section with the selected cross section long lens (2d) (52b) Various energy storage cycle coalescing engines with a method for increasing the amount of concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation and sunlight in the part close to the vacuum Is an energy conservation cycle coalescence engine that maintains power in the vicinity of a right angle and increases power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines with increased power generation method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increase the vaporization explosive force to the maximum with the solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening the fastener (80B) ) Is a set of various energy storage cycle coalescence engines that are used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increasing the vaporization explosion power to the maximum with the solar heater (2) + Vaporization explosion force in gravity + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from the existing material Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is accelerated vertically downward, and the sunlight from the existing lens cross section with the selected cross-section long lens (2d) ( 52b) Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vaporization explosive force in vacuum + Gravitational acceleration Accelerate vertically downward, and insulate the long lens (2d) and sunlight in the part close to the vacuum Various energy conservation cycle coalescing engines maintained near a right angle and used as a method for increasing power generation. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Preventing Global Warming + Vaporization Explosive Force in Vacuum + Gravity Acceleration Accelerates Vertically Downward, Split Fastener (80B) Fastening Long Lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the engine. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Generation Method to Prevent Global Warming + Vaporization Explosive Force in Vacuum + Gravity Acceleration is further accelerated vertically downward and divided into multiple long lenses with fastening tools (80B) Various energy conservation cycle coalescence engines of the power generation method in which (2d) is provided as a set, and the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro aerodynamic Solar power generation method to prevent global warming + Vaporization explosion force in vacuum + Gravity acceleration is accelerated vertically downward, and selected production length lens (2d) from existing material is made long and power generation amount Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-pneumatic solar power generation method to prevent global warming + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engine of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine gas turbines are provided in multiple stages in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-pneumatic solar power generation to prevent global warming + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sun Various energy conservation cycle coalescence engine of power generation method with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine maintaining light in the vicinity of right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, split fastener (80B ) Integration of various energy conservation cycles of a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the tightening long lens (2d) organ. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた狙う各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, divided and clamped (80B) Various energy conservation cycle coalescence engines aiming at increasing the amount of power generation by providing a plurality of tightening long lenses (2d) as a set and providing opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine in multiple stages . 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward and selected from existing materials Various energy conservation cycle coalescence engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are arranged in multiple stages with the lens (2d) as long as it aims to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation with CO2 Exhaust Zero Power Generation + Solar Heater (2) + Vaporization Explosive Force in Vacuum + Gravitational Acceleration Accelerates Vertically Downward, Selects Cross Section from Existing Lens Cross Section Various energy conservation cycles of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of concentrated power generation with long lens (2d) in water (52b) pipe Combined organization. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with zero CO2 emissions + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward at the part approaching the vacuum Various types of energy conservation in the power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining heat insulation long lens (2d) and sunlight near right angle Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, split fastener (80B ) Integration of various energy conservation cycles of a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the tightening long lens (2d) organ. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, divided and clamped (80B) Various types of energy conservation in a power generation method in which a plurality of tightened long lenses (2d) are provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward and selected from existing materials Various energy conservation cycle coalescence engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are arranged in multiple stages with the lens (2d) as long as it aims to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation with CO2 Exhaust Zero Power Generation + Solar Heater (2) + Vaporization Explosive Force in Vacuum + Gravitational Acceleration Accelerates Vertically Downward, Selects Cross Section from Existing Lens Cross Section Various energy conservation cycles of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of concentrated power generation with long lens (2d) in water (52b) pipe Combined organization. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with zero CO2 emissions + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward at the part approaching the vacuum Various types of energy conservation in the power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining heat insulation long lens (2d) and sunlight near right angle Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward The multi-stage opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages to increase the width of the long lens (2d) for tightening the split fastener (80B). Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward The multi-stage lens (2d) with multiple fasteners (80B) is divided and provided as a set, and the opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward Combined with various energy conservation cycle of power generation method with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming to increase power generation by making the selected production long lens (2d) long from existing materials organ. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward A multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward In a part close to a vacuum, heat insulation long lens (2d) and sunlight are kept near right angle, aiming to increase power generation, opposed series full blade impeller water turbine, opposed series full blade impeller gas turbine in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration Accelerating further vertically downward, increasing the width of the long lens (2d) of the split fastener (80B) tightening and aiming to increase the amount of power generation Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Vapor explosive force + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) tightened with the split fastener (80B) and increase the amount of power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, increasing the width of the long lens (2d) for tightening the split fastener (80B) and facing the increase in power generation Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration Accelerating further vertically downward, split and provide a set of multiple long lenses (2d) with clamps (80B) to set the opposed series full blade impeller water turbine / opposed series full blade Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening fasteners (80B), and opposed series full blades aiming at increased power generation Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, divided into multiple long lenses (2d) for fastening fasteners (80B), and a set of power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for fastening the fastener (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and a plurality of long lenses (2d) tightened with a fastener (80B) are provided as a set to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration Power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of power generation by accelerating the additional vertical downward and making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the selected series long blade bouncer that aims to increase the amount of power generation by making the selected production length lens (2d) long from existing materials. Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward, and an opposite series all blade impeller water that aims to increase power generation by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the opposed series full blade impeller water turbine / opposite which aims to increase the power generation amount by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, opposed series full blade impeller water turbine that aims to increase power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration Accelerating the additional vertical downward, the opposed series full blade impeller water turbine / opposite series full blade impeller that aims to increase the amount of concentrated power generation from the existing lens section to the water (52b) pipe with the selected section length lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the opposed series full-blade impeller that aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is increased to the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d). Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is applied to the water (52b) tube from the existing lens cross section with the selected cross-section long lens (2d). Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross-section to the water (52b) tube with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration Accelerating further vertically downward, heat-insulated long lens (2d) and sunlight in the vicinity of a right angle near the vacuum, aiming to increase power generation Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and a long lens (2d) with heat insulation is maintained near the vacuum in the part close to the vacuum, and opposed series whole blades aiming at increasing power generation by keeping sunlight near right angle Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of the vacuum. Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to the vacuum, aiming to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration Various energy conservation cycle coalescing engines with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that accelerate further downward vertically and aim for the same maximum amount of power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Vaporization explosive force + gravitational acceleration in the vertical direction, various types of power generation methods with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at the same maximum water output Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerating vertically downward to achieve the same water volume maximum power generation Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to provide multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at the same maximum amount of power generation Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward to achieve the same maximum amount of water generation The opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + drop increase by pumping pump (1H) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, split tightening Various energies of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation by increasing the width of the long lens (2d) tightening tool (80B) Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature 7 degrees + drop increase with pumping pump (1H) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward and divided A power generation method in which a multi-long lens (2d) for tightening a fastener (80B) is provided as a set, and an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + Drop increase with pumping pump (1H) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy conservation cycle coalescence engines of power generation method provided with multi stages of opposed series full blade impeller water turbine and opposed series full blade impeller water turbine aiming at increasing power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method to abolish seawater surface temperature 7 degrees + drop increase with pumping pump (1H) + vaporization explosive force + gravity acceleration in vacuum additional vertical cross-section Various types of power generation methods with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of concentrated power generation in the water (52b) pipe with sunlight selected from the long lens (2d) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic solar power generation method of abolishing sea water surface temperature by 7 degrees + Drop increase with pumping pump (1H) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards closer to vacuum Power generation method with multi-stage opposed series all-blade bouncer water turbine and opposed series all-blade bouncer gas turbine that aim to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat-insulating material (2c) half-cylinder outer box (77B) vaporization explosive force + gravity acceleration Accelerating further vertically downward, increasing the width of the long lens (2d) of the split fastener (80B) tightening and aiming to increase the amount of power generation Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat-insulating material (2c) half-cylinder outer box (77B) vaporization explosive force + gravity acceleration Accelerating further vertically downward, split and provide a set of multiple long lenses (2d) with clamps (80B) to set the opposed series full blade impeller water turbine / opposed series full blade Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat-insulating material (2c) half-cylinder outer box (77B) vaporization explosive force + gravity acceleration Power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of power generation by accelerating the additional vertical downward and making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat-insulating material (2c) half-cylinder outer box (77B) vaporization explosive force + gravity acceleration Accelerating the additional vertical downward, the opposed series full blade impeller water turbine / opposite series full blade impeller that aims to increase the amount of concentrated power generation from the existing lens section to the water (52b) pipe with the selected section length lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat-insulating material (2c) half-cylinder outer box (77B) vaporization explosive force + gravity acceleration Accelerating further vertically downward, heat-insulated long lens (2d) and sunlight in the vicinity of a right angle near the vacuum, aiming to increase power generation Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar heat augmented suspension bridge with a long joint (80A) (2b) vaporization explosive force in vacuum + Accelerating the gravitational acceleration further vertically downward, increasing the width of the long lens (2d) for tightening the split fastener (80B), and aiming to increase the amount of power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar heat augmented suspension bridge with a long joint (80A) (2b) vaporization explosive force in vacuum + Accelerating the gravitational acceleration vertically downward, split and provide a set of multiple long lenses (2d) with tightening tools (80B) to counter the opposing series full blade impeller water turbine, facing Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar heat augmented suspension bridge with a long joint (80A) (2b) vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase the power generation amount. Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar heat augmented suspension bridge with a long joint (80A) (2b) vaporization explosive force in vacuum + Accelerating the gravitational acceleration vertically downward, opposed series full blade impeller water turbine, opposed series aiming at increasing concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar heat augmented suspension bridge with a long joint (80A) (2b) vaporization explosive force in vacuum + Accelerating the gravitational acceleration vertically downward, facing a series of all-blade impulsive turbine water turbines facing the long lens (2d) of heat insulation and sunlight in the vicinity of a right angle near the vacuum to increase power generation Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Air Power Photovoltaic Opposite Series All-Boiled Pusher Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly 0 Degrees + Solar Heating Suspension Bridge (2b) Vaporized Explosion in Vacuum A counter-series full blade impeller water turbine / opposite series that aims to increase power generation by increasing the width of the long lens (2d) tightening the split fastener (80B) by accelerating the force + gravitational acceleration vertically downward Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Air Power Photovoltaic Opposite Series All-Boiled Pusher Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly 0 Degrees + Solar Heating Suspension Bridge (2b) Vaporized Explosion in Vacuum Additional series full blade impeller water turbine that aims to increase power generation by accelerating force + gravitational acceleration vertically downward and dividing and providing a set of multiple long lenses (2d) with fastening tools (80B) Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Air Power Photovoltaic Opposite Series All-Boiled Pusher Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly 0 Degrees + Solar Heating Suspension Bridge (2b) Vaporized Explosion in Vacuum Multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming to increase power generation by accelerating force + gravitational acceleration vertically downward and selecting a long production lens (2d) from existing materials Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Air Power Photovoltaic Opposite Series All-Boiled Pusher Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly 0 Degrees + Solar Heating Suspension Bridge (2b) Vaporized Explosion in Vacuum Forced + gravitational acceleration is further accelerated vertically downwards, and the opposed series full blade impeller water turbine is opposed to the existing lens cross-section with the selected cross-section long lens (2d) aiming to increase the concentrated power generation amount to the water (52b) pipe Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Air Power Photovoltaic Opposite Series All-Boiled Pusher Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly 0 Degrees + Solar Heating Suspension Bridge (2b) Vaporized Explosion in Vacuum Addition of force + gravitational acceleration vertically downward, a long lens (2d) with heat insulation in the part close to the vacuum and an opposed series full blade impeller water turbine that aims to increase power generation by maintaining sunlight near right angles Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Rotor Wheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified Houses Primed + Vaporized Explosive Force + Gravity Acceleration Added Vertically Downward Accelerating and increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation, the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Rotor Wheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified Houses Primed + Vaporized Explosive Force + Gravity Acceleration Added Vertically Downward Various energy storage cycle coalescing engines that are accelerated, divided, and provided with a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Rotor Wheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified Houses Primed + Vaporized Explosive Force + Gravity Acceleration Added Vertically Downward Accelerating and saving various types of energy in the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by lengthening the selected production long lens (2d) from existing materials Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Rotor Wheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified Houses Primed + Vaporized Explosive Force + Gravity Acceleration Added Vertically Downward Multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of power generation by accelerating and selecting sunlight from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Rotor Wheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified Houses Primed + Vaporized Explosive Force + Gravity Acceleration Added Vertically Downward Accelerating the long lens (2d) of heat insulation and the sunlight in the vicinity of the right angle in the part near the vacuum, and the opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine that aims to increase power generation Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero-photovoltaic power generation Opposite series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + vaporization explosive force in vacuum + acceleration of gravity accelerated vertically downward The multi-stage opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages to increase the width of the long lens (2d) for tightening the split fastener (80B). Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero-photovoltaic power generation Opposite series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + vaporization explosive force in vacuum + acceleration of gravity accelerated vertically downward Then, a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that are divided and provided with a plurality of long lenses (2d) tightened with a fastener (80B) as a set to increase the amount of power generation Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero-photovoltaic power generation Opposite series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + vaporization explosive force in vacuum + acceleration of gravity accelerated vertically downward Various energy conservation cycles of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by making the selected production length lens (2d) long from existing materials Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero-photovoltaic power generation Opposite series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + vaporization explosive force in vacuum + acceleration of gravity accelerated vertically downward The multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero-photovoltaic power generation Opposite series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + vaporization explosive force in vacuum + acceleration of gravity accelerated vertically downward The multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation by keeping the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro / pneumatic solar power generation method with zero fuel cost, 0 CO2 exhaust, 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) + in vacuum Accelerating the vaporization explosive force + gravitational acceleration in the vertical direction, increasing the width of the long lens (2d) for tightening the split fastener (80B) and increasing the power generation amount.・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro / pneumatic solar power generation method with zero fuel cost, 0 CO2 exhaust, 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) with fastening tools (80B), and a counter-series full-wing blade wheel that aims to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro / pneumatic solar power generation method with zero fuel cost, 0 CO2 exhaust, 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is made long from the existing material. Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro / pneumatic solar power generation method with zero fuel cost, 0 CO2 exhaust, 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the opposed series all-wing blade bouncing water that aims to increase concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro / pneumatic solar power generation method with zero fuel cost, 0 CO2 exhaust, 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) with heat insulation is maintained in the vicinity of the vacuum in the part close to the vacuum, and an opposed series all blade impeller that aims to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of multiple long lenses (2d) for fastening (80B) and set in opposition to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is turned from the existing lens cross section to the water (52b) tube with the selected cross-section long lens (2d). Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and a long lens (2d) with heat insulation is maintained in the vicinity of the vacuum in the part close to the vacuum, opposed series aiming at increasing power generation Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the power generation amount. Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided and provided with a set of multiple long lenses (2d) for fastening (80B), facing each other to increase power generation Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Acceleration of vaporization in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation. Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted from the existing lens cross-section to the water (52b) tube with the selected cross-section long lens (2d). Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation is kept close to the vacuum in the part close to the vacuum, and the opposite is aimed at increasing power generation Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) + Vaporization Explosive Power in Vacuum + Accelerating the gravitational acceleration further vertically downward, increasing the width of the long lens (2d) for tightening the split fastener (80B), and aiming to increase the amount of power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Solar Heater (2) + Vaporization Explosive Power in Vacuum + Accelerating the gravitational acceleration vertically downward, split and provide a set of multiple long lenses (2d) with tightening tools (80B) to counter the opposing series full blade impeller water turbine, facing Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Solar Heater (2) + Vaporization Explosive Power in Vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase the power generation amount. Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) + Vaporization Explosive Power in Vacuum + Accelerating the gravitational acceleration vertically downward, opposed series full blade impeller water turbine, opposed series aiming at increasing concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Solar Heater (2) + Vaporization Explosive Power in Vacuum + Accelerating the gravitational acceleration vertically downward, facing a series of all-blade impulsive turbine water turbines facing the long lens (2d) of heat insulation and sunlight in the vicinity of a right angle near the vacuum to increase power generation Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-wing blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles + solar heater (2) + vaporization explosive force in vacuum + Accelerating the gravitational acceleration vertically downward, increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation. Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-wing blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles + solar heater (2) + vaporization explosive force in vacuum + Accelerating the gravitational acceleration vertically downward, dividing and providing a set of multiple long lenses (2d) with clamps (80B) to set the opposed series full blade impeller water turbine, opposed series Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-wing blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles + solar heater (2) + vaporization explosive force in vacuum + Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by accelerating gravitational acceleration further downward and selecting a long lens (2d) from the existing material. Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-wing blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles + solar heater (2) + vaporization explosive force in vacuum + Accelerating the gravitational acceleration downward vertically, and using a cross-section lens (2d) selected from the existing lens cross section, sunlight is directed to the water (52b) pipe to increase the amount of power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-wing blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles + solar heater (2) + vaporization explosive force in vacuum + Accelerating the gravitational acceleration vertically downward, keeping the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum, aiming to increase power generation Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Compressed heat recovery + vaporization explosive force in vacuum + gravity acceleration is accelerated further downward vertically, increasing the width of the long lens (2d) for fastening the split fastener (80B) and facing the series to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the opposed series full blade impeller water turbine, which aims to increase the power generation amount by making the long lens (2d) selected from existing materials long Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Compressive heat recovery + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, and sunlight is directed to the water (52b) tube from the existing lens cross-section with a selected cross-section long lens (2d) to oppose increasing the amount of concentrated power generation Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum, aiming to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, increasing the width of the long lens (2d) for tightening the split fastener (80B) and increasing the amount of power generation Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Compressed heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and an opposed series full blade impeller that aims to increase power generation by selecting a long production lens (2d) from existing materials. Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated on the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Compressed heat recovery of internal air + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, generating heat by maintaining a long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and generate power. Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Internal air is recovered by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long lenses (2d) for tightening the fastener (80B). Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the opposite series all blades aiming at increasing power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Internal air is recovered by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, keeping the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + Opposite series full blade impeller that aims to increase power generation by increasing the width of the long lens (2d) tightening the split fastener (80B) by accelerating vaporization explosive force + gravitational acceleration in vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + Acceleration of vaporization + gravitational acceleration in vacuum is further accelerated vertically downward, and divided and provided with a set of multiple long lenses (2d) for tightening fasteners (80B), and opposing series full motion aiming at increased power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + Vaporization explosive force + gravitational acceleration in a vacuum. Accelerating downward in the vertical direction and selecting a long lens (2d) from existing materials to increase the amount of power generation. Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + Opposite series all blades aiming to increase the amount of power generation concentrated on the water (52b) tube from the existing lens cross-section by accelerating the vaporization explosive force + gravitational acceleration in a vacuum in a vacuum and selecting a cross-section long lens (2d) Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + Acceleration of vaporization + gravitational acceleration in vacuum Accelerating vertically downward, opposing series full motion aiming to increase power generation by maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum Vapor explosive force + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) tightened with the split fastener (80B) and increase the amount of power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening fasteners (80B), and opposed series full blades aiming at increased power generation Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the selected series long blade bouncer that aims to increase the amount of power generation by making the selected production length lens (2d) long from existing materials. Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the opposed series full-blade impeller that aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and a long lens (2d) with heat insulation is maintained near the vacuum in the part close to the vacuum, and opposed series whole blades aiming at increasing power generation by keeping sunlight near right angle Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) with heat pump (1G) to recover compression heat + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) is compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into a multi-lens (2d) for fastening with a fastener (80B) Various energy conservation cycle coalescence engines of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that are installed as a set and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downwards, opposes to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) (52b) Various energy conservation cycle coalescence engines of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade pusher gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines, which are maintained at the same time and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, split clamp (80B) tightening long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, split into multiple long lenses with fastening tool (80B) Various energy conservation cycle coalescence engines of the power generation method in which (2d) is provided as a set, and the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and select production length lens (2d) from existing material to make power generation amount long Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, and select sunlight from the existing lens cross section with the selected cross section length lens (2d) Various energy conservation cycle coalescence engine of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine gas turbines are provided in multiple stages in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, heat insulation long lens (2d) and sun Various energy conservation cycle coalescence engine of power generation method with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine maintaining light in the vicinity of right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for tightening split fastener (80B) ) To increase the amount of power generation, and a combined energy storage cycle combined engine of a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Compression heat recovery of internal air (28a) by heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, divided into multiple lengths of fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Compression heat recovery of internal air (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and power is generated by selecting a selected production length lens (2d) as long Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross section length lens (2d) Various energy conservation cycle coalescence engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) The internal air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward, and the long lens (2d) that is insulated at the part approaching the vacuum Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Compressive heat recovery with pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Compressive heat recovery with pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long lenses (2d) for tightening fasteners (80B). Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Compressed heat recovery with pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the opposed series all blades aiming at increasing power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Compressed heat recovery with pump (1G) + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, and sunlight is concentrated to water (52b) tube with a selected section length lens (2d) from the existing lens section Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Compressive heat recovery with pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulating long lens (2d) and sunlight are maintained at right angles near the part near the vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening with a fastener (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the opposed series full blade impeller that aims to increase power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method equipped with water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated to the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressed heat recovery + Vaporization explosive force + Gravity acceleration in vacuum Accelerate vertically downward, and heat insulation long lens (2d) and sunlight are kept at right angles near the part where power is generated Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the length of the split fastener (80B) tightening Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming at increased power generation by increasing the width of the lens (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, and divide and tighten the clamp (80B) Various energy conservation cycle coalescence engines of power generation method in which a multi-lens lens (2d) is provided as a set, and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated with a compressed water heat exchanger (2Y) and water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward to select a production long lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade moving vehicle water turbine and opposed series full blade flying vehicle gas turbine aiming to increase power generation as long. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the cross-sectional length lens (2d) selected from the existing lens cross section In various energy conservation cycle coalescence engines of the power generation method, which is provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heat the internal air (28a) with a compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in the vacuum vertically, and insulate the long lens ( 2d) and various energy conservation cycle coalescence engines of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining sunlight at right angles. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating the internal air (28a) with the compressed water heat exchanger (2Y) and heating the water (52b) + accelerating the vaporization explosive force + gravitational acceleration in the vacuum vertically, split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming to increase power generation amount by increasing the width of tightening long lens (2d) . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y), the water (52b) is heated + the vaporization explosive force + gravitational acceleration is further accelerated in the vertical downward direction, and divided into the fastening tools ( 80B) Various energy conservation cycles of a power generation method in which a plurality of tightened multiple lenses (2d) are provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Internal air (28a) is compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected from existing materials Various energy conservation cycle coalescence engines of power generation method in which (2d) is long and an opposed series full blade impeller water turbine and opposed series full bucket impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a section length from the existing lens section Combined with various energy conservation cycles of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation concentrated on the water (52b) pipe with sunlight through the lens (2d) organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + vaporize the explosive force in the vacuum + accelerate the gravitational acceleration vertically downward to insulate the part close to the vacuum Energy storage cycle of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller water turbine aiming to increase power generation by maintaining sunlight at right angle near right lens (2d) Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically, and split the fastener (80B ) Integration of various energy conservation cycles of a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the tightening long lens (2d) organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y), the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and divided and tightened. (80B) Various types of energy conservation in a power generation method in which a plurality of tightened long lenses (2d) are provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected production length from existing materials Various energy conservation cycle coalescence engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are arranged in multiple stages with the lens (2d) as long as it aims to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and selected cross section from existing lens cross section Various energy conservation cycles of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of concentrated power generation with long lens (2d) in water (52b) pipe Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is accelerated vertically downward, and the part close to the vacuum Various types of energy conservation in the power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining heat insulation long lens (2d) and sunlight near right angle Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to divide the clamp (80B) and tighten the long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses for fastening the fastener (80B) Various energy conservation cycle coalescence engines of the power generation method in which (2d) is provided as a set, and the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + Accelerate the vaporization explosive force + gravitational acceleration vertically in the vertical direction, select from existing materials Select the production length lens (2d) as long and generate electricity Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporization explosive force + gravity acceleration in vacuum to accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine gas turbines are provided in multiple stages in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporization explosive force + gravity acceleration in vacuum, accelerate vertically downward, heat insulation long lens (2d) and sun Various energy conservation cycle coalescence engine of power generation method with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine maintaining light in the vicinity of right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) The water (52b) is heated by the compressed water heat exchanger (2Y) + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the long lens (2d) of the divided fastener (80B) is tightened. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming to increase power generation by increasing the width. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) The water (52b) is heated with a compressed water heat exchanger (2Y) + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward and divided into multiple long lenses (80B) and tightened with a clamp (80B) 2d) is a set of various energy conservation cycle coalescence engines of the power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) Heat the water (52b) with the compressed water heat exchanger (2Y) + add the vaporization explosive force in the vacuum + accelerate the gravitational acceleration vertically downward, and water the sunlight from the existing lens section with the selected section length lens (2d) (52b) A combined energy storage cycle engine of a power generation method in which a multi-stage opposed series full bucket moving vehicle water turbine and opposed series full bucket flying vehicle gas turbine aiming to increase the amount of concentrated power generation in a pipe are provided. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) The water (52b) is heated with a compressed water heat exchanger (2Y) + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and the heat insulating long lens (2d) and sunlight are brought close to the vacuum Is an energy-saving cycle coalescing engine of a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are maintained in a multi-stage to maintain power in the vicinity of a right angle. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and long lens (2d) for split clamp (80B) tightening ) To increase the amount of power generation, and a combined energy storage cycle combined engine of a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + acceleration of gravitational acceleration further vertically downward, divided into multiple lengths of fastening tool (80B) Various energy conservation cycle coalescence engines of power generation method in which a lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + Gravitational acceleration is accelerated in the vertical downward direction in vacuum, and power generation is performed by selecting a selected long lens (2d) from an existing material. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is accelerated vertically downward, and sunlight is selected from the existing lens cross section with a selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and heat insulating long lens (2d) is close to the vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and split fastener (80B) is tightened Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided and clamped (80B) Various energy conservation cycle coalescence engines of power generation method in which a multi-lens (2d) attached is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to select from existing materials Long lens (2d) Is an energy storage cycle coalescing engine with multiple generations of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to select a long lens (2d) ) In the energy generation cycle coalescence engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the concentrated power generation amount in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and a long lens for heat insulation at the part approaching the vacuum (2d) and various energy conservation cycle coalescence engines of the power generation method in which the opposed series all blade impeller water turbine and the opposite series all blade impeller gas turbine are maintained in multiple stages while maintaining sunlight at a right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating of water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + acceleration of gravitational acceleration vertically downward, split fastener (80B) tightening Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + acceleration of gravitational acceleration is added vertically downward and divided into fasteners (80B) Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine, which are equipped with multiple tightening long lenses (2d) as a set, aiming to increase power generation amount . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to select from existing materials long lens (2d ) Is an energy generator cycle coalescence engine of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, select cross-sectional length lens ( 2d) Various energy conservation cycle coalescence engines of a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are arranged in multiple stages aiming to increase the concentrated power generation amount in the water (52b) pipe in 2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and insulation is long at the part approaching vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining the lens (2d) and sunlight near right angle . 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by increasing. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with a fastener (80B) As a set, various energy storage cycle coalescing engines of the power generation method, which are equipped with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming to increase power generation by making the selected long lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Water (52b) is heated with compressed air calorie (28b) + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward, and sunlight is converted into water (52b) from the existing lens cross section with a selected cross section long lens (2d). ) Various energy conservation cycle coalescence engines of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Vaporization explosive force in gravity + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight at right angle Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine which are maintained in the vicinity and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Heat water (52b) with air heat (28b) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Heat the water (52b) with the amount of air heat (28b) + vaporize explosive force in vacuum + accelerate the gravitational acceleration vertically downward, and divide the multi-long lens (2d) tightened with the fastener (80B) Various energy conservation cycle coalescence engines of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that are installed as a set and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Air (28b) heats water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downwards, opposes aiming to increase power generation by making the selected long lens (2d) long from existing materials Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Water (52b) is heated with air calorie (28b) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and sunlight is water (52b) from the existing lens cross section with a selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade pusher gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Heat water (52b) with air calorie (28b) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle at the part close to vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines, which are maintained at the same time and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravity acceleration further downward vertically, long lens (80B) tightening split clamp (80B) Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming at increased power generation by increasing the width of 2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration further downward vertically, divided into multiple fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a long lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection and combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to make the selected production length lens (2d) long Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Water (52b) is heated by compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration is further accelerated vertically downward in the vacuum, and the sun is selected from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing concentrated power generation amount in light (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to insulate long lens (2d) near the vacuum And an all-energy-conserving cycle coalescence engine of a power generation method with multiple stages of opposed series full-blade bouncer water turbines and opposed series full-blade bouncer gas turbines that aim to increase power generation by maintaining sunlight at right angles. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split fastener (80B) tightened Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further vertically downward, split and tightening tool (80B) Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine, which are equipped with multiple tightening long lenses (2d) as a set, aiming to increase power generation amount . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heat water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to select from existing materials long lens (2d) ) Is an energy generator cycle coalescence engine of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward to select a cross-sectional length lens ( 2d) Various energy conservation cycle coalescence engines of a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are arranged in multiple stages aiming to increase the concentrated power generation amount in the water (52b) pipe in 2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration vertically downward, long heat insulation at the part approaching the vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining the lens (2d) and sunlight near right angle . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating of water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, split fastener (80B) tightened Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation by increasing the width of the attached long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Water (52b) is heated by compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration is further accelerated vertically downward in the vacuum and divided into fasteners (80B) ) Combining various energy conservation cycles of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by providing multiple tightening long lenses (2d) as a set organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and selected from existing materials Various energy conservation cycle coalescence engine of power generation method in which 2d) is long and opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, select cross-section long lens from existing lens cross-section (2d) Combined engine with various energy conservation cycles for power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming at concentrated power generation increase in water (52b) pipe in (2d) . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat insulation is applied at the part approaching the vacuum Combining various energy conservation cycles in a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining long lens (2d) and sunlight near right angle organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( 28b) heating water (52b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( 28b) water (52b) is heated + fuel is injected and burned + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening (80B) ), A series of various energy conservation cycle coalescence engines with a power generation method that has multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( 28b) water (52b) is heated + fuel injected and combusted + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward to increase the amount of power generation by making the selected long lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( Water (52b) is heated in 28b) + fuel injection combustion + vaporization explosive force + gravity acceleration in vacuum is accelerated vertically downward, and sunlight is converted to water (2d) from the existing lens cross section with the selected cross section long lens (2d). 52b) A combined energy storage cycle engine of a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the concentrated power generation amount in the pipe are provided. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( 28b) heating water (52b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sunlight in the part close to the vacuum Various energy conservation cycle coalescing engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine maintained in the vicinity of a right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) To heat water (52b) + fuel injection and combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by increasing. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) Heating water (52b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) As a set, various energy storage cycle coalescing engines of the power generation method, which are equipped with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) Heating water (52b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) To heat water (52b) + fuel injection and combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and sunlight is converted to water (52b) from the existing lens cross section by a selected cross section long lens (2d) ) Various energy conservation cycle coalescence engines of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) Heating water (52b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are perpendicular Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine which are maintained in the vicinity and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Increase to maximum force + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) is increased to oppose power generation. Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Increase power to maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of a long lens (2d) for tightening the fastener (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Increased force maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and the opposite series full blade impeller water turbine that aims to increase power generation by selecting a long lens (2d) that is a selected production length from existing materials Various energy conservation cycle coalescence engine of power generation method with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Increase the force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Increased power maximum + Vaporization explosion force + Gravitational acceleration in vacuum Accelerates vertically downward, maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to the vacuum to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increase vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increase the vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening the fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increase the vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and the selected production long lens (2d) is lengthened from the existing material, aiming to increase power generation. Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increase vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated to the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increase vaporization explosive force to the maximum + Vapor explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, keeping the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase vaporization explosive power to the maximum in + Add vaporization explosive force in vacuum + Gravitational acceleration to the vertical downward direction to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase vaporization explosive force to the maximum in + Add vaporization explosive force in vacuum + Gravitational acceleration to additional vertical acceleration, split and provide multiple long lens (2d) with tightening tool (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase in vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the opposite series full-motion aiming to increase the power generation amount by lengthening the selected production long lens (2d) from the existing material Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase vaporization explosive force to the maximum in + Add vapor explosive force in vacuum + Gravitational acceleration to accelerate vertically downward, and concentrate sunlight on water (52b) tube with selected cross-sectional length lens (2d) from existing lens cross section Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase vaporization explosive force to the maximum in + Accelerate vaporization explosive force + gravitational acceleration in vacuum vertically and maintain heat insulating long lens (2d) and sunlight in the vicinity of right angle near the vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward, increasing the width of the long lens (2d) of the split fastener (80B) and increasing the power generation amount. Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening with a fastener (80B), and a series of opposed series aiming to increase power generation Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation. Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and opposed series full-motion aiming to increase concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and the opposed series all aiming to increase power generation by maintaining the long lens (2d) of heat insulation and sunlight at right angles near the vacuum. Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + Opposite series full blade impeller that aims to increase power generation by increasing the width of the long lens (2d) tightening the split fastener (80B) by accelerating vaporization explosive force + gravitational acceleration in vacuum Various energy conservation cycle coalescence engine of power generation method equipped with water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + Acceleration of vaporization + gravitational acceleration in vacuum is further accelerated vertically downward, and divided and provided with a set of multiple long lenses (2d) for tightening fasteners (80B), and opposing series full motion aiming at increased power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + Vaporization explosive force + gravitational acceleration in a vacuum. Accelerating downward in the vertical direction and selecting a long lens (2d) from existing materials to increase the amount of power generation. Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + Opposite series all blades aiming to increase the amount of power generation concentrated on the water (52b) tube from the existing lens cross-section by accelerating the vaporization explosive force + gravitational acceleration in a vacuum in a vacuum and selecting a cross-section long lens (2d) Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + Acceleration of vaporization + gravitational acceleration in vacuum Accelerating vertically downward, opposing series full motion aiming to increase power generation by maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerating and increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation, the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward A counter-series full-blade bouncer water turbine and a counter-series full-blade bouncer gas turbine that aim to increase power generation by accelerating, splitting, and providing a set of multiple long lenses (2d) with clamps (80B) tightened. Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerating and saving various types of energy in the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by lengthening the selected production long lens (2d) from existing materials Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of power generation by accelerating and selecting sunlight from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerating the long lens (2d) of heat insulation and the sunlight in the vicinity of the right angle in the part near the vacuum, and the opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine that aims to increase power generation Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerating and increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation, the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward A counter-series full-blade bouncer water turbine and a counter-series full-blade bouncer gas turbine that aim to increase power generation by accelerating, splitting, and providing a set of multiple long lenses (2d) with clamps (80B) tightened. Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerating and saving various types of energy in the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by lengthening the selected production long lens (2d) from existing materials Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of power generation by accelerating and selecting sunlight from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerating the long lens (2d) of heat insulation and the sunlight in the vicinity of the right angle in the part near the vacuum, and the opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine that aims to increase power generation Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward Multi-stage opposed series full blade impeller water turbine / opposite series full blade impeller gas turbine that aims to increase power generation by increasing the width of the long lens (2d) for split fastener (80B) tightening Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward The counter-series full-blade bouncer water turbine and the counter-series full-blade bouncer gas turbine aiming to increase the amount of power generation by providing a set of multiple long lenses (2d) that are fastened to each other and tightened with a fastener (80B). Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward The energy of the power generation method with multiple stages of opposed series full-blade bouncer water turbine and opposed series full-blade bouncer gas turbine aiming to increase power generation by accelerating to the selected production length lens (2d) from existing materials Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward Accelerating the existing lens cross section, the opposed series full blade impeller water turbine / opposite series full blade impeller gas turbine aiming to increase the concentrated power generation amount to the water (52b) pipe with sunlight from the existing lens cross section with the selected cross section long lens (2d) Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward Accelerating to near vacuum, heat-insulated long lens (2d) and sunlight in the vicinity of right angle to maintain power at near right angle, aiming to increase power generation Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + Accelerating the gravitational acceleration vertically downward, increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation. Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) heats water (52b) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Fuel injection and combustion + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward, increasing the width of the long lens (2d) for tightening the split fastener (80B) and increasing the amount of power generation Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + Accelerating the gravitational acceleration vertically downward, dividing and providing a set of multiple long lenses (2d) with clamps (80B) to set the opposed series full blade impeller water turbine, opposed series Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided and provided with a set of multiple long lenses (2d) for tightening fasteners (80B). Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple sets of a long lens (2d) for fastening a fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Heating water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, divided into multiple long lenses (2d) for fastening fasteners (80B), and a set of power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by accelerating gravitational acceleration further downward and selecting a long lens (2d) from the existing material. Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Recovery + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and the selected production length lens (2d) is made long from existing materials, aiming to increase power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the opposite series full motion is aimed at increasing the power generation amount by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Heating water (52b) + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward, and an opposite series all blade impeller water that aims to increase power generation by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Injecting and burning fuel + Vaporization explosion force in vacuum + Gravitational acceleration added Accelerating vertically downward, an existing series of all-blade impellers aiming to increase power generation by making the long lens (2d) longer Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + Accelerating the gravitational acceleration downward vertically, and using a cross-section lens (2d) selected from the existing lens cross section, sunlight is directed to the water (52b) pipe to increase the amount of power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Recover + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight from the existing lens cross-section to the water (52b) tube with the selected cross-section long lens (2d) aims to increase the concentrated power generation Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is increased to the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d). Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated to the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + Accelerating the gravitational acceleration vertically downward, keeping the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum, aiming to increase power generation Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and in a series close to the vacuum, heat insulating long lens (2d) and sunlight are kept near right angle to oppose series Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to keep the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Heating water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of the vacuum. Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the part near the vacuum for power generation Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + Additional energy conservation cycle coalescence engine with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that accelerates gravitational acceleration vertically downward and aims for the same maximum water production. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Recovery + Vaporization and explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and power generation with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at the same maximum amount of water generation Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerating vertically downward, opposing series full blade impeller water turbine / opposed series full blade impeller Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerating vertically downward to achieve the same water volume maximum power generation Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) Heating + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to achieve the same water volume maximum power generation. Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity Accelerating the acceleration vertically downward, increasing the width of the long lens (2d) of the split fastener (80B) and increasing the amount of power generation. Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity Accelerate the additional vertical downward, split and provide a set of multiple long lenses (2d) with clamps (80B) to set the opposed series full blade impeller water turbine / opposed series all Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity A series of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines that aim to increase power generation by accelerating acceleration vertically downward and selecting a long lens (2d), which is a selected production length lens, from existing materials are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity Accelerating the acceleration vertically further, and using a cross-section lens (2d) selected from the existing lens cross section, sunlight is directed to the water (52b) tube to increase the amount of power generation. Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity Acceleration is further accelerated vertically downward, and a long lens (2d) with heat insulation is maintained in the vicinity of the vacuum, and sunlight is maintained in the vicinity of a right angle so as to increase the amount of power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of multiple long lenses (2d) for fastening (80B) and set in opposition to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is turned from the existing lens cross section to the water (52b) tube with the selected cross-section long lens (2d). Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and a long lens (2d) with heat insulation is maintained in the vicinity of the vacuum in the part close to the vacuum, opposed series aiming at increasing power generation Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide multiple long lenses (2d) for tightening fasteners (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and an opposite series full blade impeller water turbine that aims to increase power generation by making the selected production length lens (2d) long from existing materials・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the concentrated power generation amount is increased from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to vacuum to increase power generation Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Light heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the existing production material lens (2d) is made long to increase the amount of power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is increased from the existing lens cross section to the water (52b) tube with the selected cross-section long lens (2d). Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum. Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Accelerating the vaporization explosive force + gravitational acceleration in the vertical direction, increasing the width of the long lens (2d) for tightening the split fastener (80B) and increasing the power generation amount.・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) with fastening tools (80B), and a counter-series full-wing blade wheel that aims to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is made long from the existing material. Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the opposed series all-wing blade bouncing water that aims to increase concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) with heat insulation is maintained in the vicinity of the vacuum in the part close to the vacuum, and an opposed series all blade impeller that aims to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven to make all kinds of automobiles + surface floating type solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) tightened with the split fastener (80B) and increase the amount of power generation. Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven to make all kinds of automobiles + surface floating type solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for tightening fasteners (80B) to set the opposed series full blade impeller water for increased power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven to make all kinds of automobiles + surface floating type solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward to increase the amount of power generation by making the production length lens (2d) long from existing materials. Opposed series full blade impeller water turbine / opposed serial full blade impeller gas turbine Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven to make all kinds of automobiles + surface floating type solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and the opposed series full-blade propulsion vehicle water turbine aims to increase the concentrated power generation amount from the existing lens cross-section to the water (52b) pipe with the selected cross-section long lens (2d)・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven to make all kinds of automobiles + surface floating type solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and a long lens (2d) with heat insulation is maintained in the vicinity of the vacuum and sunlight is kept in the vicinity of a right angle to increase the amount of power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward, increasing the width of the long lens (2d) of the split fastener (80B) and increasing the power generation amount. Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening with a fastener (80B), and a series of opposed series aiming to increase power generation Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation. Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and opposed series full-motion aiming to increase concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and the opposed series all aiming to increase power generation by maintaining the long lens (2d) of heat insulation and sunlight at right angles near the vacuum. Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and oppose to increase power generation Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation. Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vessel (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and an opposed series full blade impeller water turbine that aims to increase power generation by selecting a long lens (2d) that is a selected production length from existing materials. Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat generation is increased by maintaining a long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide multiple long lenses (2d) for tightening fasteners (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and an opposite series full blade impeller water turbine that aims to increase power generation by making the selected production length lens (2d) long from existing materials・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the concentrated power generation amount is increased from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to vacuum to increase power generation Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) tightened with the split fastener (80B) and increase the amount of power generation. Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for tightening fasteners (80B) to set the opposed series full blade impeller water for increased power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward to increase the amount of power generation by making the production length lens (2d) long from existing materials. Opposed series full blade impeller water turbine / opposed serial full blade impeller gas turbine Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and the opposed series full-blade propulsion vehicle water turbine aims to increase the concentrated power generation amount from the existing lens cross-section to the water (52b) pipe with the selected cross-section long lens (2d)・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and a long lens (2d) with heat insulation is maintained in the vicinity of the vacuum and sunlight is kept in the vicinity of a right angle to increase the amount of power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum Accelerating explosive force + gravitational acceleration vertically downward, increasing the width of the long lens (2d) of the split fastener (80B) and increasing the amount of power generation. Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum An opposed series full blade impeller water turbine that aims to increase power generation by accelerating explosive force + gravitational acceleration vertically downward, and dividing and providing a set of multiple long lenses (2d) with fastening tools (80B)・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum Additional series-moving blade bouncer water turbine and opposed series all-blade bouncer gas turbine aiming to increase power generation by accelerating explosive force + gravitational acceleration vertically downward and selecting a long production lens (2d) from existing materials Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum Addition of explosive force + gravitational acceleration vertically downward, with a cross section of the existing lens aiming to increase the amount of concentrated power generation from the existing lens section to the water (52b) pipe with the selected section length lens (2d) Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum An opposed series full blade impeller water turbine that aims to increase power generation by accelerating the explosive force + gravitational acceleration vertically downward and maintaining the long lens (2d) of heat insulation and sunlight in the vicinity of a right angle near the vacuum.・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of long lenses (2d) for fastening fasteners (80B) and power generation amount Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the opposed production of all series moving blade bouncing water is aimed at increasing power generation by selecting a long production lens (2d) from existing materials. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to vacuum. Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) The internal air is recovered by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward and divided into a set of multiple long lenses (2d) for tightening fasteners (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the amount of power generation by increasing the selected production length lens (2d) from existing materials. Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is converted into a water (52b) tube from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased concentrated power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle near the vacuum Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided and set with multiple length lens (2d) with clamp (80B) Various energy conservation cycle coalescing engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, opposing in series to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with a selected cross section long lens (2d) to water (52b) tube A combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of concentrated power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Compressed heat recovery of internal air + Vaporization explosion force in vacuum + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight near right angle Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full-blade bouncer water turbine and opposed series full-blade bouncer gas turbine that maintain and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) of the split fastener (80B) and increase the amount of power generation. Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided and provided with a set of multiple long lenses (2d) for fastening (80B), facing each other to increase power generation Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials. Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Heat recovery + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, opposing series in order to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Heat recovery + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation and sunlight are kept near right angle in the part close to the vacuum, facing the increase in power generation Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided and provided with a set of multiple long lenses (2d) for tightening fasteners (80B). Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Recovery + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and the selected production length lens (2d) is made long from existing materials, aiming to increase power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Recover + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight from the existing lens cross-section to the water (52b) tube with the selected cross-section long lens (2d) aims to increase the concentrated power generation Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and in a series close to the vacuum, heat insulating long lens (2d) and sunlight are kept near right angle to oppose series Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compress internal heat (28a) with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is accelerated further vertically downward, and the long lens (2d) of split clamp (80B) tightens Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming to increase power generation by increasing the width. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compress internal heat (28a) with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (80B) tightened ( 2d) is a set of various energy conservation cycle coalescence engines of the power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery of internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compress internal heat (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is watered from the existing lens cross section with the selected cross section long lens (2d) (52b) A combined energy storage cycle engine of a power generation method in which a multi-stage opposed series full bucket moving vehicle water turbine and opposed series full bucket flying vehicle gas turbine aiming to increase the amount of concentrated power generation in a pipe are provided. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compress internal heat (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, heat insulating long lens (2d) and sunlight Is an energy-saving cycle coalescing engine of a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are maintained in a multi-stage to maintain power in the vicinity of a right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + Long lens for fastening split fastener (80B) by accelerating vaporization explosive force + gravitational acceleration vertically downward in vacuum Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine that aim to increase power generation by increasing the width of (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + compressive heat recovery + vaporization explosive force + gravity acceleration in vacuum vertically downward, and divide and tighten fastener (80B) Various energy conservation cycle coalescence engines of a power generation method in which a multi-long lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum vertically in the vacuum to select and manufacture a long lens (2d) from existing materials Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + vaporization explosive force + gravitational acceleration in vacuum in the vertical direction, and select cross-section long lens (2d) from existing lens cross section Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase concentrated power generation amount in sunlight (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + heat generated by compression + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, heat insulating long lens (2d ) And sunlight in the vicinity of a right angle, and various energy conservation cycle coalescence engines of the power generation method provided with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the length of split fastener (80B) tightening Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming at increased power generation by increasing the width of the lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided and clamped (80B) Various energy conservation cycle coalescence engines of power generation method in which a multi-lens lens (2d) is provided as a set, and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Internal air (28a) is compressed with heat pump (1G) + Explosive force of vaporization + Gravitational acceleration in vacuum is further accelerated vertically downward, and selected production length lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade moving vehicle water turbine and opposed series full blade flying vehicle gas turbine aiming to increase power generation as long. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to select a cross-section long lens (2d) from the existing lens cross section In various energy conservation cycle coalescence engines of the power generation method, which is provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Recover internal air (28a) with heat pump (1G) + Compressive heat recovery + Vaporization explosive force + Gravity acceleration in vacuum vertically and heat insulation long lens ( 2d) and various energy conservation cycle coalescence engines of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining sunlight at right angles. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) With a heat pump (1G) to recover the compression heat + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) With a heat pump (1G) + evacuated explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided to set a multi-lens (2d) with a clamp (80B) Various energy conservation cycle coalescing engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) With a heat pump (1G) + Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, opposing in series to increase the amount of power generation by making the selected production length lens (2d) long Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) With heat pump (1G) + compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, sunlight from the existing lens cross section with a selected cross section long lens (2d) water (52b) tube A combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of concentrated power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) With a heat pump (1G) + Compressive heat recovery + Vaporization explosive force + Gravity acceleration in the vertical direction Accelerate vertically downward, heat insulation long lens (2d) and sunlight near right angle Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full-blade bouncer water turbine and opposed series full-blade bouncer gas turbine that maintain and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) The heat pump (1G) recovers compression heat + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening with fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the total length of the selected production length lens (2d) is increased from the existing material. Various energy conservation cycle coalescence engine of power generation method equipped with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is converted into a water (52b) tube from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased concentrated power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerate vertically downward to maintain heat insulation long lens (2d) and sunlight near right angle Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically, and tighten the split fastener (80B) Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation by increasing the width of the attached long lens (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and divided into fasteners (80B). ) Combining various energy conservation cycles of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by providing multiple tightening long lenses (2d) as a set organ. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + water (52b) + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, select from existing materials Various energy conservation cycle coalescence engine of power generation method in which 2d) is long and opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is accelerated vertically downward, and the selected cross section length lens is selected from the existing lens cross section. (2d) Combined engine with various energy conservation cycles for power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming at concentrated power generation increase in water (52b) pipe in (2d) . 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + vaporize the explosive force in gravity + accelerate the gravitational acceleration vertically downward. Combining various energy conservation cycles in a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining long lens (2d) and sunlight near right angle organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Various types of energy conservation in a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + acceleration of gravity is further accelerated vertically downward and divided and tightened Various power generation methods with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines that aim to increase power generation by providing multiple long lenses (2d) tightening attachments (80B) as a set Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Internal air (28a) is compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward and selected from existing materials Various energy conservation cycle coalescence engines of a power generation method in which a production long lens (2d) is long and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + heat the water (52b) + vaporize explosive force in vacuum + accelerate the gravitational acceleration vertically downward from the cross section of the existing lens Various energy of the power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight of the selected section long lens (2d) Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) The internal air (28a) was heated with the compressed water heat exchanger (2Y) and the water (52b) was heated + vaporized explosive force in the vacuum + gravitational acceleration was accelerated vertically downward to bring it closer to the vacuum Various types of power generation methods with multiple stages of opposed series full-blade bouncer water turbine and opposed series full-blade bouncer gas turbine that aim to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards, split tightening Various energies of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation by increasing the width of the long lens (2d) tightening tool (80B) Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration is further accelerated vertically downward and divided. A power generation method in which a multi-long lens (2d) for tightening a fastener (80B) is provided as a set, and an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy conservation cycle coalescence engines of power generation method provided with multi stages of opposed series full blade impeller water turbine and opposed series full blade impeller water turbine aiming at increasing power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, cross-section of existing lens Various types of power generation methods with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of concentrated power generation in the water (52b) pipe with sunlight selected from the long lens (2d) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heat internal air (28a) with compressed water heat exchanger (2Y) + Heat water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to bring it closer to vacuum Power generation method with multi-stage opposed series all-blade bouncer water turbine and opposed series all-blade bouncer gas turbine that aim to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heating the air (28a) with the compressed water heat exchanger (2Y) + heating the water (52b) + accelerating the vaporization explosive force + gravitational acceleration vertically downward, and a long lens for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine that aim to increase power generation by increasing the width of (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, and divide and tighten the fastener (80B) Various energy conservation cycle coalescence engines of a power generation method in which a multi-long lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the air (28a) with the compressed water heat exchanger (2Y) + heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, select the existing material from the long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the air (28a) with the compressed water heat exchanger (2Y) + heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, and select the cross-section length lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase concentrated power generation amount in sunlight (52b) pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the air (28a) with the compressed water heat exchanger (2Y) + heat the water (52b) + vaporize explosive force + gravitational acceleration in the vacuum vertically, and insulate the long lens (2d) near the vacuum ) And sunlight in the vicinity of a right angle, and various energy conservation cycle coalescence engines of the power generation method provided with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) Compressed water heat exchanger (2Y) heats water (52b) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, and long lens (80B) tightening split clamp (80B) Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming at increased power generation by increasing the width of 2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) is compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, divided into multiple fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a long lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) Compressed water heat exchanger (2Y) heats water (52b) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to make the selected production length lens (2d) long Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) is compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward, and the selected cross section long lens (2d) is used for the sun. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing concentrated power generation amount in light (52b) pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) Compressed water heat exchanger (2Y) heats water (52b) + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward to insulate long lens (2d) near the vacuum And an all-energy-conserving cycle coalescence engine of a power generation method with multiple stages of opposed series full-blade bouncer water turbines and opposed series full-blade bouncer gas turbines that aim to increase power generation by maintaining sunlight at right angles. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward, and length of split fastener (80B) tightening Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming at increased power generation by increasing the width of the lens (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided and clamped (80B) Various energy conservation cycle coalescence engines of power generation method in which a multi-lens lens (2d) is provided as a set, and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to select a manufacturing long lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade moving vehicle water turbine and opposed series full blade flying vehicle gas turbine aiming to increase power generation as long. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Water (52b) is heated by compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward to select a cross-section long lens (2d) from the existing lens cross section In various energy conservation cycle coalescence engines of the power generation method, which is provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in gravity + gravitational acceleration is accelerated vertically downward, and heat insulating long lens ( 2d) and various energy conservation cycle coalescence engines of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining sunlight at right angles. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Unit (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming to increase power generation amount by increasing the width of tightening long lens (2d) . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into fasteners ( 80B) Various energy conservation cycles of a power generation method in which a plurality of tightened multiple lenses (2d) are provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select from existing materials Various energy conservation cycle coalescence engines of power generation method in which (2d) is long and an opposed series full blade impeller water turbine and opposed series full bucket impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + additional acceleration of gravity acceleration downward, select cross section length from existing lens cross section Combined with various energy conservation cycles of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation concentrated on the water (52b) pipe with sunlight through the lens (2d) organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward to insulate the part close to vacuum Energy storage cycle of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller water turbine aiming to increase power generation by maintaining sunlight at right angle near right lens (2d) Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, split fastener (80B ) Integration of various energy conservation cycles of a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the tightening long lens (2d) organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Accelerating gravitational acceleration vertically downward, split and tightening tool (80B) Various types of energy conservation in a power generation method in which a plurality of tightened long lenses (2d) are provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Additional vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected production length from existing materials Various energy conservation cycle coalescence engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are arranged in multiple stages with the lens (2d) as long as it aims to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected cross section from existing lens cross section Various energy conservation cycles of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of concentrated power generation with long lens (2d) in water (52b) pipe Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, at the part close to vacuum Various types of energy conservation in the power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining heat insulation long lens (2d) and sunlight near right angle Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heating water (52b) with compressed air calorie (28b) of air calorie + vaporizing explosive force in vacuum + acceleration of gravitational acceleration vertically downward, long lens (2d) for tightening split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heating water (52b) with compressed air calorie (28b) of air heat + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward and divided into multiple long lenses for fastening (80B) Various energy conservation cycle coalescence engines of the power generation method in which (2d) is provided as a set, and the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat of water (52b) with compressed air calorie (28b) of air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and selected from existing materials Select production length lens (2d) as long and generate power Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the water (52b) with the compressed air calorie (28b) of the air calorie + Add vaporization explosive force in the vacuum + Accelerate the gravitational acceleration vertically downward, and select sunlight from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine gas turbines are provided in multiple stages in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heating water (52b) with compressed air calorie (28b) of air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sun Various energy conservation cycle coalescence engine of power generation method with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine maintaining light in the vicinity of right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heat the water (52b) with the amount of heat of compressed air (28b) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward to the long lens (2d) of the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming to increase power generation by increasing the width. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heating water (52b) with calorie compressed air calorie (28b) + Vaporization explosive force + Gravity acceleration in vacuum is further accelerated vertically downward and divided into multiple long lenses (80B) and tightened with a clamp (80B) 2d) is a set of various energy conservation cycle coalescence engines of the power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heat of water (52b) with compressed air calorie (28b) of heat + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heat water (52b) with compressed air calorie (28b) of heat + Vaporization explosive force + gravity acceleration in vacuum Accelerate vertically downward, and water from the existing lens cross section with a selected cross section length lens (2d) (52b) A combined energy storage cycle engine of a power generation method in which a multi-stage opposed series full bucket moving vehicle water turbine and opposed series full bucket flying vehicle gas turbine aiming to increase the amount of concentrated power generation in a pipe are provided. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heating water (52b) with compressed air calorie (28b) of heat + Evaporating explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sunlight in the part close to vacuum Is an energy-saving cycle coalescing engine of a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are maintained in a multi-stage to maintain power in the vicinity of a right angle. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and split fastener (80B) is tightened Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Water (52b) is heated by compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration is further accelerated vertically downward in the vacuum, and divided and clamped (80B) Various energy conservation cycle coalescence engines of power generation method in which a multi-lens (2d) attached is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and selected from existing materials Long lens (2d) Is an energy storage cycle coalescing engine with multiple generations of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward to select a cross-section long lens (2d ) In the energy generation cycle coalescence engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the concentrated power generation amount in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection and combustion + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, heat insulating long lens near the vacuum (2d) and various energy conservation cycle coalescence engines of the power generation method in which the opposed series all blade impeller water turbine and the opposite series all blade impeller gas turbine are maintained in multiple stages while maintaining sunlight at a right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Unit (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B ) Integration of various energy conservation cycles of a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the tightening long lens (2d) organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) Various types of energy conservation in a power generation method in which a plurality of tightened long lenses (2d) are provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select production length from existing materials Various energy conservation cycle coalescence engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are arranged in multiple stages with the lens (2d) as long as it aims to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected cross section from existing lens cross section Various energy conservation cycles of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of concentrated power generation with long lens (2d) in water (52b) pipe Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward at the part close to vacuum Various types of energy conservation in the power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining heat insulation long lens (2d) and sunlight near right angle Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, 80B) Various energy conservation cycles of a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the tightening long lens (2d) are provided. Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravitational acceleration vertically downward, split and tighten Various energy of the power generation method in which a multi-lens (2d) tightening tool (80B) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to selectively manufacture from existing materials Various energy conservation cycle coalescence engines of power generation method in which a long lens (2d) is long and an opposed series full blade impeller water turbine / opposed serial full blade impeller gas turbine is provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing lens cross section Various energy conservation of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation concentrated on the water (52b) pipe with the long section lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and the part approaches vacuum Insulated long lens (2d) and various energy of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by maintaining sunlight near right angle Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heating water (52b) with the amount of air heat (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, long lens (2d) for tightening split fastener (80B) ) To increase the amount of power generation, and a combined energy storage cycle combined engine of a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heating water (52b) with air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, divided into multiple lengths of fastening tool (80B) Various energy conservation cycle coalescence engines of power generation method in which a lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heating water (52b) with air calorie (28b) + Fuel injection combustion + Vaporization explosive force in gravity + Gravitational acceleration is further accelerated vertically downwards, and power is generated by selecting a selected long lens (2d) from an existing material. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heating water (52b) with air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and sunlight is selected with a cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heat water (52b) with air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and a long lens (2d) for heat insulation in a part close to vacuum Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining sunlight near right angle. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Surface Floating Solar Heater Heat (28b) with water (52b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split clamp (80B) long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Surface Floating Solar Heater (2) (2b) Compressed Air Heating water (52b) with heat (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward and divided into a plurality of long lenses for fastening (80B) Various energy conservation cycle coalescence engines of the power generation method in which (2d) is provided as a set, and the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Surface Floating Solar Heater Heating water (52b) with heat (28b) + Fuel injection combustion + Vaporization explosive force in gravity + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is made long from existing materials to generate electricity Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Surface Floating Solar Heater Heat water (52b) with calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross section length lens (2d) Various energy conservation cycle coalescence engine of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine gas turbines are provided in multiple stages in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Surface Floating Solar Heater Heat water (52b) with heat (28b) + fuel injection combustion + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, heat insulation long lens (2d) and sun Various energy conservation cycle coalescence engine of power generation method with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine maintaining light in the vicinity of right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosive force is increased to the maximum by + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) is increased to increase power generation Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosive force is increased to the maximum by + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) with fastening tools (80B) for power generation Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosive force in vacuum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and an opposed series full blade impeller that aims to increase power generation by selecting a long lens (2d) that is a selected production length from existing materials Various energy conservation cycle coalescence engine of power generation method equipped with water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosive force is increased to the maximum with + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated into the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosive force is increased to the maximum by + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat insulation is maintained in the vicinity of the long lens (2d) and sunlight in the vicinity of the right angle to generate electricity. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vaporization explosion force increased to maximum with vessel (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vaporization explosion force increased to maximum with vessel (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided and set with multiple long lens (2d) tightening fastener (80B) Various energy conservation cycle coalescing engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vaporization explosion force increased to maximum with vessel (2) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, opposing in series to increase the power generation amount by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heat Vaporization explosive force increased to maximum with vessel (2) + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerate vertically downward, sunlight from the existing lens cross section with a selected cross-section long lens (2d) water (52b) tube A combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of concentrated power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vaporization explosion force increased to maximum with vessel (2) + Vaporization explosion force + gravity acceleration in vacuum Accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full-blade bouncer water turbine and opposed series full-blade bouncer gas turbine that maintain and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Increase the vaporization explosive force to the maximum with the heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Increase the vaporization explosive force to the maximum with the heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening the fastener (80B) Various energy conservation cycle coalescence engines of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that are installed as a set and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Increase the vaporization explosion force to the maximum with the heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the opposite length is selected to increase the amount of power generation by selecting the long lens (2d) that is selected from the existing material. Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Vaporization explosion force increased to maximum with heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is water (52b) from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade pusher gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) increases vaporization explosive force to the maximum + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines, which are maintained at the same time and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Increased maximum + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, increasing the width of the long lens (2d) for tightening the split fastener (80B), and increasing the power generation amount. Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Increase to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening the fastener (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Increased to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is made long from the existing material. Various energy conservation cycle coalescence engine of power generation method with multistage stage turbine blade gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Increase to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, opposes aiming to increase the concentrated power generation amount from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Increase to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept at right angles near the vacuum, aiming to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power + Incremental vaporization force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. Various energy conservation cycle coalescence engine of power generation method equipped with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided and provided with a set of multiple long lenses (2d) for fastening (80B), facing each other to increase power generation Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power + Incremental vaporization force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation. Various energy storage cycle coalescing engine of power generation method with multi-stage gas turbines with all rotor blades 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power + Incremental vaporization force in vacuum + Gravitational acceleration is accelerated vertically downward, opposing series in order to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power + Increased vaporization force in vacuum + Gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation is kept close to the right angle in the part close to the vacuum, and the opposite is aimed at increasing power generation Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine that accelerates vertically downward and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum A counter-series full-blade pusher water turbine / opposite series full-blade pusher wheel that accelerates vertically downward and divides and is provided with a set of multiple long lenses (2d) tightened with a fastener (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum A power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages, aiming to increase the amount of power generation by accelerating vertically downward and selecting a long production length lens (2d) from existing materials. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Accelerating vertically downward, with a selected cross-sectional length lens (2d) from the existing lens cross section, aiming to increase the amount of concentrated power generation from the sunlight to the water (52b) pipe. Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Accelerating vertically downward, heat-insulated long lens (2d) and sunlight in the vicinity of a right angle near the vacuum, aiming to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine that accelerates vertically downward and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum A counter-series full-blade pusher water turbine / opposite series full-blade pusher wheel that accelerates vertically downward and divides and is provided with a set of multiple long lenses (2d) tightened with a fastener (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum A power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages, aiming to increase the amount of power generation by accelerating vertically downward and selecting a long production length lens (2d) from existing materials. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Accelerating vertically downward, with a selected cross-sectional length lens (2d) from the existing lens cross section, aiming to increase the amount of concentrated power generation from the sunlight to the water (52b) pipe. Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Accelerating vertically downward, heat-insulated long lens (2d) and sunlight in the vicinity of a right angle near the vacuum, aiming to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum Accelerating further vertically downward, increasing the width of the long lens (2d) of the split fastener (80B) tightening and aiming to increase the amount of power generation Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum Accelerating further vertically downward, split and provide a set of multiple long lenses (2d) with clamps (80B) to set the opposed series full blade impeller water turbine / opposed series full blade Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum Power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of power generation by accelerating the additional vertical downward and making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum Accelerating the additional vertical downward, the opposed series full blade impeller water turbine / opposite series full blade impeller that aims to increase the amount of concentrated power generation from the existing lens section to the water (52b) pipe with the selected section length lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum Accelerating further vertically downward, heat-insulated long lens (2d) and sunlight in the vicinity of a right angle near the vacuum, aiming to increase power generation Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum Accelerating explosive force + gravitational acceleration vertically downward, increasing the width of the long lens (2d) of the split fastener (80B) and increasing the amount of power generation. Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and oppose to increase power generation Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heating water (52b) with heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of long lens (2d) for split clamp (80B) tightening Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( In 28b), water (52b) is heated + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate electricity. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) heating + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum An opposed series full blade impeller water turbine that aims to increase power generation by accelerating explosive force + gravitational acceleration vertically downward, and dividing and providing a set of multiple long lenses (2d) with fastening tools (80B)・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of a long lens (2d) for fastening a fastener (80B) to increase power generation. Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heating water (52b) with heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) Various energy conservation cycle coalescence engines of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that are installed as a set and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( In 28b), water (52b) is heated + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, and divided into a plurality of long-length lenses (2d) for fastening a fastener (80B). Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) is heated + fuel injected and combusted + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening with a fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum Additional series-moving blade bouncer water turbine and opposed series all-blade bouncer gas turbine aiming to increase power generation by accelerating explosive force + gravitational acceleration vertically downward and selecting a long production lens (2d) from existing materials Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressed heat recovery + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and the opposed series all blade impeller water turbine that aims to increase the power generation amount by making the long lens (2d) selected from existing materials long Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heat (52b) is heated by heat exchanger (2Y) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is made longer from the existing material, aiming to increase power generation Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( 28b) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the opposite series full motion is aimed at increasing the power generation amount by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) heating + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and the total length of the selected production length lens (2d) is increased from the existing material. Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum Addition of explosive force + gravitational acceleration vertically downward, with a cross section of the existing lens aiming to increase the amount of concentrated power generation from the existing lens section to the water (52b) pipe with the selected section length lens (2d) Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressive heat recovery + Vaporization explosive force + Gravitational acceleration in vacuum Accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is water from selected lens cross section with selected cross-section long lens (2d) (52b) Various energy conservation cycle coalescence engines of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade pusher gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( 28b) water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) is heated + fuel is injected and burned + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and sunlight is converted into a water (52b) tube from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased concentrated power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum An opposed series full blade impeller water turbine that aims to increase power generation by accelerating the explosive force + gravitational acceleration vertically downward and maintaining the long lens (2d) of heat insulation and sunlight in the vicinity of a right angle near the vacuum.・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressed heat recovery + Vaporization explosive force + Gravity acceleration in vacuum Accelerate vertically downward and maintain heat insulation long lens (2d) and sunlight at right angles near the vacuum to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heating water (52b) with heat exchanger (2Y) + vaporizing explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and heat insulating long lens (2d) and sunlight are close to right angle at the part approaching vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines, which are maintained at the same time and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( 28b) water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) is heated + fuel-injected and combusted + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward to keep the heat insulating long lens (2d) and sunlight close to right angle near the vacuum Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum Additional energy conservation cycle of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at the same maximum water generation by accelerating explosive force + gravity acceleration vertically downward Combined organization. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to achieve the same water volume maximum power generation amount. Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heating water (52b) with heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward to achieve the same maximum amount of water generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( 28b) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerating vertically downward, opposing series full blade impeller water turbine / opposed series full blade impeller Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) Heating + Fuel injection combustion + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward to achieve the same maximum amount of water generated. Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + Accelerating the gravitational acceleration further vertically downward, increasing the width of the long lens (2d) for tightening the split fastener (80B), and aiming to increase the amount of power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + Accelerating the gravitational acceleration vertically downward, split and provide a set of multiple long lenses (2d) with tightening tools (80B) to counter the opposing series full blade impeller water turbine, facing Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase the power generation amount. Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + Accelerating the gravitational acceleration vertically downward, opposed series full blade impeller water turbine, opposed series aiming at increasing concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + Accelerating the gravitational acceleration vertically downward, facing a series of all-blade impulsive turbine water turbines facing the long lens (2d) of heat insulation and sunlight in the vicinity of a right angle near the vacuum to increase power generation Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and oppose to increase power generation Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation. Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Vessel (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and an opposed series full blade impeller water turbine that aims to increase power generation by selecting a long lens (2d) that is a selected production length from existing materials. Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat generation is increased by maintaining a long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and generate power Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long lenses (2d) for fastening fasteners (80B). Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Equivalent solar heater (2) + Opposite series rotor blades aiming to increase power generation by increasing the length of the selected production long lens (2d) from existing materials by accelerating the vaporization explosive force + gravitational acceleration in vacuum vertically Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Equivalent solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens section with the selected section length lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Equivalent solar heater (2) + Vaporization explosive force + Gravitational acceleration in vacuum Accelerate vertically downward, and keep heat-insulated long lens (2d) and sunlight near right angle near the vacuum Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Equivalent solar heater (2) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward, and divided into multiple sets of long lenses (2d) for fastening (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar power heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, opposing series full motion aiming at increased power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to keep the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward, increasing the width of the long lens (2d) of the split fastener (80B) and increasing the power generation amount. Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening with a fastener (80B), and a series of opposed series aiming to increase power generation Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation. Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and opposed series full-motion aiming to increase concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and the opposed series all aiming to increase power generation by maintaining the long lens (2d) of heat insulation and sunlight at right angles near the vacuum. Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + Opposite series full blade impeller that aims to increase power generation by increasing the width of the long lens (2d) tightening the split fastener (80B) by accelerating vaporization explosive force + gravitational acceleration in vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + Acceleration of vaporization + gravitational acceleration in vacuum is further accelerated vertically downward, and divided and provided with a set of multiple long lenses (2d) for tightening fasteners (80B), and opposing series full motion aiming at increased power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force + gravitational acceleration in a vacuum. Accelerating downward in the vertical direction and selecting a long lens (2d) from existing materials to increase the amount of power generation. Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + Opposite series all blades aiming to increase the amount of power generation concentrated on the water (52b) tube from the existing lens cross-section by accelerating the vaporization explosive force + gravitational acceleration in a vacuum in a vacuum and selecting a cross-section long lens (2d) from the existing lens cross-section Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + Acceleration of vaporization + gravitational acceleration in vacuum Accelerating vertically downward, opposing series full motion aiming to increase power generation by maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) + Opposite series that accelerates vaporization explosive force in vacuum + gravitational acceleration vertically downward and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) + Opposite series full blade impeller water turbine, opposite the target to increase the amount of power generation by increasing the length of the production length lens (2d) from existing materials by accelerating the vaporization explosive force + gravity acceleration in vacuum vertically Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight from the cross section of the existing lens to the water (52b) tube with the selected cross-section long lens (2d) Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part approaching the vacuum, aiming to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and an opposed series full-blade impeller that aims to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated into the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and generate power Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long lenses (2d) for fastening with a fastener (80B). Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar power heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and the opposed series all blades aiming to increase the power generation amount by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) + Vaporization explosive force + Gravitational acceleration in vacuum Accelerate vertically downward, keeping heat insulation long lens (2d) and sunlight close to right angle near the vacuum Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + Opposite series full blade impeller that aims to increase power generation by increasing the width of the long lens (2d) tightening the split fastener (80B) by accelerating vaporization explosive force + gravitational acceleration in vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + Acceleration of vaporization + gravitational acceleration in vacuum is further accelerated vertically downward, and divided and provided with a set of multiple long lenses (2d) for tightening fasteners (80B), and opposing series full motion aiming at increased power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force + gravitational acceleration in a vacuum. Accelerating downward in the vertical direction and selecting a long lens (2d) from existing materials to increase the amount of power generation. Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + Opposite series all blades aiming to increase the amount of power generation concentrated on the water (52b) tube from the existing lens cross-section by accelerating the vaporization explosive force + gravitational acceleration in a vacuum in a vacuum and selecting a cross-section long lens (2d) from the existing lens cross-section Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + Acceleration of vaporization + gravitational acceleration in vacuum Accelerating vertically downward, opposing series full motion aiming to increase power generation by maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen Vapor explosive force + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) tightened with the split fastener (80B) and increase the amount of power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening fasteners (80B), and opposed series full blades aiming at increased power generation Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the selected series long blade bouncer that aims to increase the amount of power generation by making the selected production length lens (2d) long from existing materials. Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the opposed series full-blade impeller that aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and a long lens (2d) with heat insulation is maintained near the vacuum in the part close to the vacuum, and opposed series whole blades aiming at increasing power generation by keeping sunlight near right angle Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Internal air is recovered by compressing heat + Explosive force of vaporization in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Compressed heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of a long lens (2d) for fastening with a fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the opposite series full motion is aimed at increasing the power generation amount by lengthening the selected production long lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the width of long lens (2d) for split clamp (80B) tightening Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by increasing. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) As a set, various energy storage cycle coalescing engines of the power generation method, which are equipped with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted into water (52b) from the existing lens cross section with a selected cross section long lens (2d) ) Various energy conservation cycle coalescence engines of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight at right angles in the part approaching vacuum Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine which are maintained in the vicinity and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Compressed heat recovery + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with a fastener (80B) ), A series of various energy conservation cycle coalescence engines with a power generation method that has multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the amount of power generation by selecting a long production lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Sunlight heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is removed from the existing lens cross section with the selected cross section long lens (2d) ( 52b) A combined energy storage cycle engine of a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the concentrated power generation amount in the pipe are provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the long lens (2d) of heat insulation and sunlight are irradiated in the part approaching the vacuum Various energy conservation cycle coalescing engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine maintained in the vicinity of a right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Recover air by compressing heat + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, increasing the width of the long lens (2d) for tightening the split fastener (80B) and aiming to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Compressed heat recovery + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and the opposed series full blade impeller water turbine that aims to increase the power generation amount by selecting a long lens (2d) as a selected production length from existing materials・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Compressed heat recovery + Evaporative explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the concentrated power generation amount is increased from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept at right angles near the vacuum to increase power generation Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for fastening the split fastener (80B) and oppose to increase power generation Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of multiple long lenses (2d) for fastening (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and a long lens (2d) is selected from existing materials to increase the amount of power generation. Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Internal air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to provide a long lens (80B) tightening split clamp (80B) Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming at increased power generation by increasing the width of 2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, and divided into a plurality of fasteners (80B) for fastening. Various energy conservation cycle coalescence engines of power generation method in which a long lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to make the selected production length lens (2d) long Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Internal air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the sun is selected from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing concentrated power generation amount in light (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) The internal air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for heat insulation at the part approaching the vacuum And an all-energy-conserving cycle coalescence engine of a power generation method with multiple stages of opposed series full-blade bouncer water turbines and opposed series full-blade bouncer gas turbines that aim to increase power generation by maintaining sunlight at right angles. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered with compression heat by heat pump (1G) + Explosive force of vaporization + Gravitational acceleration in vacuum is further accelerated vertically and tightened by split fastener (80B) Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine, which are equipped with multiple tightening long lenses (2d) as a set, aiming to increase power generation amount . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosion force + Gravitational acceleration in vacuum is further accelerated vertically downward and selected from existing materials Long lens (2d ) Is an energy generator cycle coalescence engine of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward from the existing lens cross section. 2d) Various energy conservation cycle coalescence engines of a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are arranged in multiple stages aiming to increase the concentrated power generation amount in the water (52b) pipe in 2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation is long at the part close to vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining the lens (2d) and sunlight near right angle . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further downward vertically, split fastener (80B) tightened Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation by increasing the width of the attached long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward and divided into fasteners (80B) ) Combining various energy conservation cycles of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by providing multiple tightening long lenses (2d) as a set organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select from existing materials Various energy conservation cycle coalescence engine of power generation method in which 2d) is long and opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a long lens from the existing lens cross section (2d) Combined engine with various energy conservation cycles for power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming at concentrated power generation increase in water (52b) pipe in (2d) . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal heat (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to insulate the part close to vacuum Combining various energy conservation cycles in a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining long lens (2d) and sunlight near right angle organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Compressed heat recovery of air (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into a plurality of long lenses (2d) for fastening with a fastener (80B) ), A series of various energy conservation cycle coalescence engines with a power generation method that has multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Recover air (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Air (28a) is recovered by compressing heat with a heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted into water (2d) from the existing lens cross section with the selected cross section long lens (2d) 52b) A combined energy storage cycle engine of a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the concentrated power generation amount in the pipe are provided. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation and sunlight are irradiated near the vacuum. Various energy conservation cycle coalescing engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine maintained in the vicinity of a right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air (28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by increasing. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) As a set, various energy storage cycle coalescing engines of the power generation method, which are equipped with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Heat recovery (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is water (52b) from the existing lens cross section with the selected cross section long lens (2d) ) Various energy conservation cycle coalescence engines of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sunlight at right angle in the part approaching vacuum Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine which are maintained in the vicinity and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the split fastener ( 80B) Various energy conservation cycles of a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the tightening long lens (2d) are provided. Combined organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + acceleration of gravity is accelerated vertically downward, and divided and tightened Various energy of the power generation method in which a multi-lens (2d) tightening tool (80B) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward to selectively produce from existing materials Various energy conservation cycle coalescence engines of power generation method in which a long lens (2d) is long and an opposed series full blade impeller water turbine / opposed serial full blade impeller gas turbine is provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Internal air (28a) is compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing lens cross section Various energy conservation of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation concentrated on the water (52b) pipe with the long section lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y), the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is accelerated vertically downward, and the part that is close to the vacuum Insulated long lens (2d) and various energy of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by maintaining sunlight near right angle Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided A power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages to increase the width of the long lens (2d) for tightening the fastener (80B) Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided Then, a multi-long lens (2d) for tightening the fastener (80B) is provided as a set, and power generation with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Various energy conservation cycle coalescence engine of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation by making the production long lens (2d) long from material. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing A power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the concentrated power generation amount in a water (52b) pipe with sunlight selected from a lens cross section with a long lens (2d) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, Power generation with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, Power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine for increasing the amount of power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, A multi-length lens (2d) for tightening the fastener (80B) is provided as a set, and an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. Various energy conservation cycle coalescence engine of power generation method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed serial full blade impeller gas turbine aiming at increasing power generation by lengthening the selected production long lens (2d) from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, Power generation with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation concentrated on the water (52b) pipe with sunlight selected from the existing lens cross section long lens (2d) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, In the part close to the vacuum, a long lens (2d) for heat insulation and an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine that aim to increase the amount of power generation by maintaining sunlight near right angles are provided in multiple stages. Various energy conservation cycle coalescence engine of power generation method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in a vacuum vertically and tighten the split fastener (80B) Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with a compressed water heat exchanger (2Y) and heat the water (52b) + vaporize explosive force in vacuum + accelerate the gravitational acceleration vertically downward, and divide and tighten the fastener (80B) Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine, which are equipped with multiple tightening long lenses (2d) as a set, aiming to increase power generation amount . 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in the vacuum vertically and select from existing materials ) Is an energy generator cycle coalescence engine of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravity acceleration in the vacuum vertically downward, and select the cross-section long lens ( 2d) Various energy conservation cycle coalescence engines of a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are arranged in multiple stages aiming to increase the concentrated power generation amount in the water (52b) pipe in 2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with a compressed water heat exchanger (2Y) and heat the water (52b) + vaporization explosive force in vacuum + additional acceleration of gravity in the vertical downward direction, heat insulation at the part approaching the vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining the lens (2d) and sunlight near right angle . 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically, and tighten the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically and divide and tighten the clamp (80B) Various energy conservation cycle coalescence engines of power generation method in which a multi-lens (2d) attached is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating the internal air (28a) with the compressed water heat exchanger (2Y) and heating the water (52b) + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward and selecting from existing materials Long lens (2d) Is an energy storage cycle coalescing engine with multiple generations of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically in the vacuum, select the cross-section long lens (2d ) In the energy generation cycle coalescence engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the concentrated power generation amount in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y), heat the water (52b) + vaporize explosive force in the vacuum + accelerate the gravitational acceleration vertically downward, heat insulation long lens near the vacuum (2d) and various energy conservation cycle coalescence engines of the power generation method in which the opposed series all blade impeller water turbine and the opposite series all blade impeller gas turbine are maintained in multiple stages while maintaining sunlight at a right angle. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, split fastener (80B) tightened Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation by increasing the width of the attached long lens (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Water (52b) is heated by compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and divided into fasteners (80B ) Combining various energy conservation cycles of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by providing multiple tightening long lenses (2d) as a set organ. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heat (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and selected from existing materials Various energy conservation cycle coalescence engine of power generation method in which 2d) is long and opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward to select a cross-section long lens from existing lens cross-section (2d) Combined engine with various energy conservation cycles for power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming at concentrated power generation increase in water (52b) pipe in (2d) . 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation is applied in the part approaching vacuum Combining various energy conservation cycles in a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining long lens (2d) and sunlight near right angle organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Various types of energy conservation in a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, split and tighten Various power generation methods with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines that aim to increase power generation by providing multiple long lenses (2d) tightening attachments (80B) as a set Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various energy conservation cycle coalescence engines of a power generation method in which a production long lens (2d) is long and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Various energy of the power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight of the selected section long lens (2d) Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration was accelerated vertically downward to bring it closer to vacuum Various types of power generation methods with multiple stages of opposed series full-blade bouncer water turbine and opposed series full-blade bouncer gas turbine that aim to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, split tightening Various energies of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation by increasing the width of the long lens (2d) tightening tool (80B) Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided A power generation method in which a multi-long lens (2d) for tightening a fastener (80B) is provided as a set, and an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy conservation cycle coalescence engines of power generation method provided with multi stages of opposed series full blade impeller water turbine and opposed series full blade impeller water turbine aiming at increasing power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, cross-section of existing lens Various types of power generation methods with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of concentrated power generation in the water (52b) pipe with sunlight selected from the long lens (2d) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of the internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to bring it closer to vacuum Power generation method with multi-stage opposed series all-blade bouncer water turbine and opposed series all-blade bouncer gas turbine that aim to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating of water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, long lens for split clamp (80B) tightening Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine that aim to increase power generation by increasing the width of (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum, and vertically accelerating and splitting the fastener (80B) Various energy conservation cycle coalescence engines of a power generation method in which a multi-long lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and the selected production length lens (2d) is long from existing materials Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Water (52b) is heated by compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is accelerated further downward in the vertical direction, and from a cross section of an existing lens with a selected cross section long lens (2d) Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase concentrated power generation amount in sunlight (52b) pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum, vertically accelerating vertically downward, heat insulating long lens (2d) ) And sunlight in the vicinity of a right angle, and various energy conservation cycle coalescence engines of the power generation method provided with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically, long lens for split clamp (80B) tightening ( Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming at increased power generation by increasing the width of 2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a long lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the water (52b) with the compressed air calorie (28b) of the internal air calorie + Accelerate the vaporization explosive force + gravitational acceleration vertically in the vertical direction, select the existing production material from the long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is accelerated vertically downward, and the sun is selected with a long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing concentrated power generation amount in light (52b) pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating the water (52b) with the compressed air calorie (28b) of the internal air calorie + vaporizing explosive force + gravitational acceleration in the vacuum, vertically accelerating vertically downward, heat insulating long lens (2d) And an all-energy-conserving cycle coalescence engine of a power generation method with multiple stages of opposed series full-blade bouncer water turbines and opposed series full-blade bouncer gas turbines that aim to increase power generation by maintaining sunlight at right angles. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming to increase power generation amount by increasing the width of tightening long lens (2d) . 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward and divided into fasteners ( 80B) Various energy conservation cycles of a power generation method in which a plurality of tightened multiple lenses (2d) are provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation Combined organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and selected from existing materials Various energy conservation cycle coalescence engines of power generation method in which (2d) is long and an opposed series full blade impeller water turbine and opposed series full bucket impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, and selected cross section length from existing lens cross section Combined with various energy conservation cycles of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation concentrated on the water (52b) pipe with sunlight through the lens (2d) organ. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating of water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to insulate the part close to vacuum Energy storage cycle of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller water turbine aiming to increase power generation by maintaining sunlight at right angle near right lens (2d) Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Various energies of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation by increasing the width of the long lens (2d) tightening tool (80B) Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and divided A power generation method in which a multi-long lens (2d) for tightening a fastener (80B) is provided as a set, and an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy conservation cycle coalescence engines of power generation method provided with multi stages of opposed series full blade impeller water turbine and opposed series full blade impeller water turbine aiming at increasing power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, cross-section of existing lens Various types of power generation methods with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of concentrated power generation in the water (52b) pipe with sunlight selected from the long lens (2d) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards closer to vacuum Power generation method with multi-stage opposed series all-blade bouncer water turbine and opposed series all-blade bouncer gas turbine that aim to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Various types of power generation methods with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by increasing the width of the long lens (2d) for fastening the attachment (80B) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force + Gravitational acceleration is accelerated vertically downward and divided Power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by providing a set of multiple long lenses (2d) for tightening the clamp (80B) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, existing materials Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation by making the production length lens (2d) long. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, existing lens A power generation method in which opposed series full blade impeller water turbines and opposed series full bucket impeller gas turbines are provided in multiple stages, aiming to increase the amount of concentrated power generation from sunlight to the water (52b) tube with a long section lens (2d) selected from the cross section. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in gravity + Gravitational acceleration is accelerated vertically downward to make vacuum Power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining heat insulation long lens (2d) near the right angle in the close part Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat of water (52b) with compressed air calorie (28b) + fuel injection and combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, length of split fastener (80B) tightening Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming at increased power generation by increasing the width of the lens (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward and divided and clamped (80B) Various energy conservation cycle coalescence engines of power generation method in which a multi-lens lens (2d) is provided as a set, and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further vertically downward, select manufacturing long lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade moving vehicle water turbine and opposed series full blade flying vehicle gas turbine aiming to increase power generation as long. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to select a cross-section long lens (2d) from the existing lens cross section In various energy conservation cycle coalescence engines of the power generation method, which is provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration is accelerated vertically downward, and heat insulation long lens ( 2d) and various energy conservation cycle coalescence engines of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining sunlight at right angles. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, long lens for split clamp (80B) tightening Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine that aim to increase power generation by increasing the width of (2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward and divided into fasteners (80B) Various energy conservation cycle coalescence engines of a power generation method in which a multi-long lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration in vacuum additional vertical downward acceleration, select production length lens (2d) is long from existing materials Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase concentrated power generation amount in sunlight (52b) pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for heat insulation at the part approaching the vacuum ) And sunlight in the vicinity of a right angle, and various energy conservation cycle coalescence engines of the power generation method provided with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Increase vaporization explosive force to the maximum in + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater In (2), the vaporization explosive force is increased to the maximum + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into a set of multiple long lenses (2d) for tightening the fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Increase vaporization explosive power to the maximum + vapor explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by increasing the selected production length lens (2d) from the existing material. Various energy conservation cycle coalescence engine of power generation method equipped with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater In (2), the vaporization explosive force is increased to the maximum + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and sunlight is converted into the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased concentrated power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to keep the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Increase the vaporization explosive force to the maximum with the solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening the fastener (80B) ), A series of various energy conservation cycle coalescence engines with a power generation method that has multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material to increase the power generation amount Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is accelerated vertically downward, and the sunlight from the existing lens cross section with the selected cross-section long lens (2d) ( 52b) A combined energy storage cycle engine of a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the concentrated power generation amount in the pipe are provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vaporization explosive force in vacuum + Gravitational acceleration Accelerate vertically downward, and insulate the long lens (2d) and sunlight in the part close to the vacuum Various energy conservation cycle coalescing engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine maintained in the vicinity of a right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming to increase power generation by increasing the width. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Maximum increase in vaporization explosive force with solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (80B) tightened ( 2d) is a set of various energy conservation cycle coalescence engines of the power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Maximum increase in vaporization explosive force with solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production long lens (2d) long Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Increase vaporization explosive power to maximum with solar heater (2) + Vaporization explosive force in gravity + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) (52b) A combined energy storage cycle engine of a power generation method in which a multi-stage opposed series full bucket moving vehicle water turbine and opposed series full bucket flying vehicle gas turbine aiming to increase the amount of concentrated power generation in a pipe are provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Increase the vaporization explosive force to the maximum with the solar heater (2) + Add the vaporization explosive force in vacuum + Gravitational acceleration to the vertical downward direction, heat insulation long lens (2d) and sunlight in the part close to the vacuum Is an energy-saving cycle coalescing engine of a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are maintained in a multi-stage to maintain power in the vicinity of a right angle. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosion force is increased to the maximum + Vaporization explosion force + gravity acceleration in vacuum is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) is increased to increase the power generation amount. Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosion force increased to the maximum + Vaporization explosion force + Gravitational acceleration in the vertical direction is further accelerated vertically downward, and divided into multiple sets of a long lens (2d) for fastening the fastener (80B). Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosion force is increased to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is made long from the existing material. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosion force increased to the maximum + Vaporization explosion force + Gravity acceleration in the vertical direction Accelerated vertically downward, increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosive force increased to maximum + vaporization explosive force + gravity acceleration in vacuum Accelerated vertically downward, heat insulation long lens (2d) and sunlight kept near right angle near the vacuum Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Explosive force increased to maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Increases explosion power to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide multiple sets of long lenses (2d) for fastening (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Explosive force maximized + Vaporized explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, opposing series all blade impeller water turbine aiming to increase power generation by making the selected production length lens (2d) long from existing materials・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Increase explosion power to maximum + Vaporization explosion force + Gravitational acceleration in vacuum Accelerate vertically downward, increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Increases explosion power to the maximum + Vaporization explosion force + Gravitational acceleration in vacuum Accelerates vertically downward, increases heat generation by maintaining long lens (2d) and sunlight near right angle near vacuum Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) tightened with the split fastener (80B) and increase the amount of power generation. Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for tightening fasteners (80B) to set the opposed series full blade impeller water for increased power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward to increase the amount of power generation by making the production length lens (2d) long from existing materials. Opposed series full blade impeller water turbine / opposed serial full blade impeller gas turbine Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and the opposed series full-blade propulsion vehicle water turbine aims to increase the concentrated power generation amount from the existing lens cross-section to the water (52b) pipe with the selected cross-section long lens (2d)・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and a long lens (2d) with heat insulation is maintained in the vicinity of the vacuum and sunlight is kept in the vicinity of a right angle to increase the amount of power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) tightened with the split fastener (80B) and increase the amount of power generation. Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for tightening fasteners (80B) to set the opposed series full blade impeller water for increased power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward to increase the amount of power generation by making the production length lens (2d) long from existing materials. Opposed series full blade impeller water turbine / opposed serial full blade impeller gas turbine Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and the opposed series full-blade propulsion vehicle water turbine aims to increase the concentrated power generation amount from the existing lens cross-section to the water (52b) pipe with the selected cross-section long lens (2d)・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and a long lens (2d) with heat insulation is maintained in the vicinity of the vacuum and sunlight is kept in the vicinity of a right angle to increase the amount of power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Accelerating the vaporization explosive force + gravitational acceleration in the vertical direction, increasing the width of the long lens (2d) for tightening the split fastener (80B) and increasing the power generation amount.・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) with fastening tools (80B), and a counter-series full-wing blade wheel that aims to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is made long from the existing material. Various energy conservation cycle coalescence engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the opposed series all-wing blade bouncing water that aims to increase concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) with heat insulation is maintained in the vicinity of the vacuum in the part close to the vacuum, and an opposed series all blade impeller that aims to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressed heat recovery + vaporization explosive force in vacuum + gravity acceleration is accelerated further downward vertically, increasing the width of the long lens (2d) for fastening the split fastener (80B) and facing the series to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) with heat pump (1G) to recover compression heat + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the length of the split fastener (80B) tightening Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming at increased power generation by increasing the width of the lens (2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and long lens (2d) for split clamp (80B) tightening ) To increase the amount of power generation, and a combined energy storage cycle combined engine of a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravity acceleration further downward vertically, long lens (80B) tightening split clamp (80B) Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming at increased power generation by increasing the width of 2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) is compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into a multi-lens (2d) for fastening with a fastener (80B) Various energy conservation cycle coalescence engines of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that are installed as a set and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, and divide and tighten the clamp (80B) Various energy conservation cycle coalescence engines of power generation method in which a multi-lens lens (2d) is provided as a set, and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + acceleration of gravitational acceleration further vertically downward, divided into multiple lengths of fastening tool (80B) Various energy conservation cycle coalescence engines of power generation method in which a lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration further downward vertically, divided into multiple fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a long lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the opposed series full blade impeller water turbine, which aims to increase the power generation amount by making the long lens (2d) selected from existing materials long Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downwards, opposes to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) The internal air (28a) is heated with a compressed water heat exchanger (2Y) and water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward to select a production long lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade moving vehicle water turbine and opposed series full blade flying vehicle gas turbine aiming to increase power generation as long. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + Gravitational acceleration is accelerated in the vertical downward direction in vacuum, and power generation is performed by selecting a selected long lens (2d) from an existing material. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection and combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to make the selected production length lens (2d) long Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressive heat recovery + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, and sunlight is directed to the water (52b) tube from the existing lens cross-section with a selected cross-section long lens (2d) to oppose increasing the amount of concentrated power generation Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) (52b) Various energy conservation cycle coalescence engines of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade pusher gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the cross-sectional length lens (2d) selected from the existing lens cross section In various energy conservation cycle coalescence engines of the power generation method, which is provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is accelerated vertically downward, and sunlight is selected from the existing lens cross section with a selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Water (52b) is heated by compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration is further accelerated vertically downward in the vacuum, and the sun is selected from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing concentrated power generation amount in light (52b) pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum, aiming to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines, which are maintained at the same time and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heat the internal air (28a) with a compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in the vacuum vertically, and insulate the long lens ( 2d) and various energy conservation cycle coalescence engines of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining sunlight at right angles. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and heat insulating long lens (2d) is close to the vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining sunlight near right angle. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to insulate long lens (2d) near the vacuum And an all-energy-conserving cycle coalescence engine of a power generation method with multiple stages of opposed series full-blade bouncer water turbines and opposed series full-blade bouncer gas turbines that aim to increase power generation by maintaining sunlight at right angles. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to provide multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at the same maximum water production Combined with various energy conservation cycle of power generation method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) with a heat pump (1G) to recover the compression heat + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward to achieve the same maximum amount of water generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed water heat exchanger (2Y) for internal air (28a) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, opposing series full motion aiming at the same water volume maximum power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + vaporized explosive force in gravity + gravity acceleration is accelerated vertically downward, facing series full blade impeller water aiming at maximum power generation with the same amount of water Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, opposed series all blade impeller aiming at the same water maximum power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of multiple long lenses (2d) for fastening (80B) and set in opposition to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is turned from the existing lens cross section to the water (52b) tube with the selected cross-section long lens (2d). Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and a long lens (2d) with heat insulation is maintained in the vicinity of the vacuum in the part close to the vacuum, opposed series aiming at increasing power generation Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the vertical explosion force + gravitational acceleration in a vacuum, etc. Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near-right angle etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into a multiple length lens (2d) for fastening with a fastener (80B) Various energy conservation cycle coalescence engines of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that are installed as a set and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Facing near right angle etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, opposing to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with a selected cross-section long lens (2d) (52b) Various energy conservation cycle coalescence engines of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade pusher gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight near right angle This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines, which are maintained at the same time and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) A long lens (2d) for tightening the split fastener (80B) by accelerating the vaporization explosive force + gravitational acceleration in the vertical direction vertically, etc. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses with fastening tools (80B) Various energy conservation cycle coalescence engines of the power generation method in which (2d) is provided as a set, and the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is made long from the existing material to generate electricity. Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engine of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine gas turbines are provided in multiple stages in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sun Various energy conservation cycle coalescence engine of power generation method with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine maintaining light in the vicinity of right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to divide the clamp (80B) tightening long lens (2d) ) To increase the amount of power generation, and a combined energy storage cycle combined engine of a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, divided into multiple lengths of fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and power is generated with a long lens (2d) selected from existing materials. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate power Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long-length lenses (2d) for fastening a fastener (80B). Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and the opposed series all blades aiming at increasing power generation by making the selected long lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross-section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Sunlight heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to maintain heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and an opposed series full-blade impeller that aims to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated into the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to set multiple lenses (2d) for fastening with fastener (80B) Various energy conservation cycle coalescing engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, opposing in series to increase the power generation amount by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with a selected cross-section long lens (2d) to water (52b) tube A combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of concentrated power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight near right angle Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full-blade bouncer water turbine and opposed series full-blade bouncer gas turbine that maintain and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming to increase power generation by increasing the width. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (80B) for fastening 2d) is a set of various energy conservation cycle coalescence engines of the power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected long lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is watered from the existing lens cross section with the selected cross-section long lens (2d) (52b) A combined energy storage cycle engine of a power generation method in which a multi-stage opposed series full bucket moving vehicle water turbine and opposed series full bucket flying vehicle gas turbine aiming to increase the amount of concentrated power generation in a pipe are provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + additional gravitational acceleration in the vertical downward direction, heat insulating long lens (2d) and sunlight Is an energy-saving cycle coalescing engine of a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are maintained in a multi-stage to maintain power in the vicinity of a right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, long lens (2d) for tightening split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward and divided into multiple long lenses with fastening tools (80B) Various energy conservation cycle coalescence engines of the power generation method in which (2d) is provided as a set, and the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and the selected production length lens (2d) is made long from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engine of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine gas turbines are provided in multiple stages in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sun Various energy conservation cycle coalescence engine of power generation method with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine maintaining light in the vicinity of right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and an opposed series full-blade impeller that aims to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated into the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the existing production material lens (2d) is made long to increase the amount of power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is increased from the existing lens cross section to the water (52b) tube with the selected cross-section long lens (2d). Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum. Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, long lens (2d) for tightening split clamp (80B) ) To increase the amount of power generation, and a combined energy storage cycle combined engine of a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple lengths of fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and power is generated by selecting a selected production length lens (2d) from an existing material Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near-right angle + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected with a long section (2d) from the existing lens cross section Various energy conservation cycle coalescence engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) in the part approaching vacuum Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Compressed heat recovery + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward to divide the clamp (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Compressed heat recovery + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward, and divided and clamped (80B) Various energy conservation cycle coalescence engines of power generation method in which a multi-lens (2d) attached is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) Compressive heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select from existing materials Manufacturing lens (2d) Is an energy storage cycle coalescing engine with multiple generations of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air is compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a cross-section lens (2d) ) In the energy generation cycle coalescence engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the concentrated power generation amount in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air is recovered by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and a long lens that insulates near the vacuum (2d) and various energy conservation cycle coalescence engines of the power generation method in which the opposed series all blade impeller water turbine and the opposite series all blade impeller gas turbine are maintained in multiple stages while maintaining sunlight at a right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Close to right angle with sunlight + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, split fastener (80B) tightening Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward and divided into fasteners (80B) Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine, which are equipped with multiple tightening long lenses (2d) as a set, aiming to increase power generation amount . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, select from existing materials long lens (2d ) Is an energy generator cycle coalescence engine of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force + Gravity acceleration in vacuum 2d) Various energy conservation cycle coalescence engines of a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are arranged in multiple stages aiming to increase the concentrated power generation amount in the water (52b) pipe in 2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and the heat insulation length is close to the vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining the lens (2d) and sunlight near right angle . 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the width of long lens (2d) for split clamp (80B) tightening Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by increasing. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) As a set, various energy storage cycle coalescing engines of the power generation method, which are equipped with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted into water (52b) from the existing lens cross section with a selected cross section long lens (2d) ) Various energy conservation cycle coalescence engines of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight at right angles in the part approaching vacuum Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine which are maintained in the vicinity and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for fastening the split fastener (80B) Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward and divided into multiple length lens (2d) for fastening with clamp (80B) Various energy conservation cycle coalescence engines of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that are installed as a set and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downwards, opposing to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross-section with a long lens (2d) (52b) Various energy conservation cycle coalescence engines of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade pusher gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Compressed heat recovery of internal air + Vaporization explosion force in vacuum + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight near right angle This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines, which are maintained at the same time and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) + Solar power (2) The internal air (28a) is recovered by compressing heat with a heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener ( 80B) Various energy conservation cycles of a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the tightening long lens (2d) are provided. Combined organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) Internal air (28a) with heat pump (1G) recovering compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, divided and tightened Various energy of the power generation method in which a multi-lens (2d) tightening tool (80B) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to selectively manufacture from existing materials Various energy conservation cycle coalescence engines of power generation method in which a long lens (2d) is long and an opposed series full blade impeller water turbine / opposed serial full blade impeller gas turbine is provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing lens cross section Various energy conservation of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation concentrated on the water (52b) pipe with the long section lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near the right angle + Solar heater (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and the part approaches vacuum Insulated long lens (2d) and various energy of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by maintaining sunlight near right angle Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated downward vertically and split A power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages to increase the width of the long lens (2d) for tightening the fastener (80B) Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated downward vertically and split Then, a multi-long lens (2d) for tightening the fastener (80B) is provided as a set, and power generation with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated vertically downward, existing Various energy conservation cycle coalescence engine of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation by making the production long lens (2d) long from material. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated vertically downward, existing A power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the concentrated power generation amount in a water (52b) pipe with sunlight selected from a lens cross section with a long lens (2d) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air (28a) with heat pump (1G) to recover heat compression + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, vacuum Power generation with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, Power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine for increasing the amount of power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, A multi-length lens (2d) for tightening the fastener (80B) is provided as a set, and an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. Various energy conservation cycle coalescence engine of power generation method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed serial full blade impeller gas turbine aiming at increasing power generation by lengthening the selected production long lens (2d) from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, Power generation with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation concentrated on the water (52b) pipe with sunlight selected from the existing lens cross section long lens (2d) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, In the part close to the vacuum, a long lens (2d) for heat insulation and an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine that aim to increase the amount of power generation by maintaining sunlight near right angles are provided in multiple stages. Various energy conservation cycle coalescence engine of power generation method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Internal air (28a) is recovered with compression heat by heat pump (1G) + Explosive force of vaporization + Gravitational acceleration in vacuum is further accelerated vertically and tightened by split fastener (80B) Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine, which are equipped with multiple tightening long lenses (2d) as a set, aiming to increase power generation amount . 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosion force + Gravitational acceleration in vacuum is further accelerated vertically downward and selected from existing materials Long lens (2d ) Is an energy generator cycle coalescence engine of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward from the existing lens cross section. 2d) Various energy conservation cycle coalescence engines of a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are arranged in multiple stages aiming to increase the concentrated power generation amount in the water (52b) pipe in 2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation is long at the part close to vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining the lens (2d) and sunlight near right angle . 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward, and split fastener (80B) is tightened Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided and clamped (80B) Various energy conservation cycle coalescence engines of power generation method in which a multi-lens (2d) attached is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and selected from existing materials Long lens (2d) Is an energy storage cycle coalescing engine with multiple generations of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) The internal air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward to select a long lens (2d) ) In the energy generation cycle coalescence engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the concentrated power generation amount in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Recover internal air (28a) with heat pump (1G) + evacuate explosive force in vacuum + gravitational acceleration in the vertical downward direction, heat insulation long lens near the vacuum (2d) and various energy conservation cycle coalescence engines of the power generation method in which the opposed series all blade impeller water turbine and the opposite series all blade impeller gas turbine are maintained in multiple stages while maintaining sunlight at a right angle. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward The multi-stage opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages to increase the width of the long lens (2d) for tightening the split fastener (80B). Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward Then, a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that are divided and provided with a plurality of long lenses (2d) tightened with a fastener (80B) as a set to increase the amount of power generation Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward Various energy conservation cycles of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by making the selected production length lens (2d) long from existing materials Combined organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward The multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward The multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation by keeping the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum Opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine that accelerates vertically downward and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum A counter-series full-blade pusher water turbine / opposite series full-blade pusher wheel that accelerates vertically downward and divides and is provided with a set of multiple long lenses (2d) tightened with a fastener (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum A power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages, aiming to increase the amount of power generation by accelerating vertically downward and selecting a long production length lens (2d) from existing materials. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum Accelerating vertically downward, with a selected cross-sectional length lens (2d) from the existing lens cross section, aiming to increase the amount of concentrated power generation from the sunlight to the water (52b) pipe. Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum Accelerating vertically downward, heat-insulated long lens (2d) and sunlight in the vicinity of a right angle near the vacuum, aiming to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum Accelerating further vertically downward, increasing the width of the long lens (2d) of the split fastener (80B) tightening and aiming to increase the amount of power generation Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum Accelerating further vertically downward, split and provide a set of multiple long lenses (2d) with clamps (80B) to set the opposed series full blade impeller water turbine / opposed series full blade Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum Power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of power generation by accelerating the additional vertical downward and making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum Accelerating the additional vertical downward, the opposed series full blade impeller water turbine / opposite series full blade impeller that aims to increase the amount of concentrated power generation from the existing lens section to the water (52b) pipe with the selected section length lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum Accelerating further vertically downward, heat-insulated long lens (2d) and sunlight in the vicinity of a right angle near the vacuum, aiming to increase power generation Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided A power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages to increase the width of the long lens (2d) for tightening the fastener (80B) Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided Then, a multi-long lens (2d) for tightening the fastener (80B) is provided as a set, and power generation with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Various energy conservation cycle coalescence engine of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation by making the production long lens (2d) long from material. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing A power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the concentrated power generation amount in a water (52b) pipe with sunlight selected from a lens cross section with a long lens (2d) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, Power generation with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and tightened Various types of power generation methods with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by increasing the width of the long lens (2d) for fastening the attachment (80B) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward and divided Power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by providing a set of multiple long lenses (2d) for tightening the clamp (80B) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Internal air (28a) is compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, existing materials Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation by making the production length lens (2d) long. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, existing lens A power generation method in which opposed series full blade impeller water turbines and opposed series full bucket impeller gas turbines are provided in multiple stages, aiming to increase the amount of concentrated power generation from sunlight to the water (52b) tube with a long section lens (2d) selected from the cross section. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heat internal air (28a) with compressed water heat exchanger (2Y) + Water (52b) + Vaporization explosive force + Gravity acceleration in vacuum Power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining heat insulation long lens (2d) near the right angle in the close part Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically Power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine for increasing the amount of power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically A multi-length lens (2d) for tightening the fastener (80B) is provided as a set, and an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed serial full blade impeller gas turbine aiming at increasing power generation by lengthening the selected production long lens (2d) from existing materials. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically Power generation with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation concentrated on the water (52b) pipe with sunlight selected from the existing lens cross section long lens (2d) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically In the part close to the vacuum, a long lens (2d) for heat insulation and an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine that aim to increase the amount of power generation by maintaining sunlight near right angles are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating and increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation, the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward A counter-series full-blade bouncer water turbine and a counter-series full-blade bouncer gas turbine that aim to increase power generation by accelerating, splitting, and providing a set of multiple long lenses (2d) with clamps (80B) tightened. Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating and saving various types of energy in the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by lengthening the selected production long lens (2d) from existing materials Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of power generation by accelerating and selecting sunlight from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating the long lens (2d) of heat insulation and the sunlight in the vicinity of the right angle in the part near the vacuum, and the opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine that aims to increase power generation Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Multi-stage opposed series full blade impeller water turbine / opposite series full blade impeller gas turbine that aims to increase power generation by increasing the width of the long lens (2d) for split fastener (80B) tightening Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward The counter-series full-blade bouncer water turbine and the counter-series full-blade bouncer gas turbine aiming to increase the amount of power generation by providing a set of multiple long lenses (2d) that are fastened to each other and tightened with a fastener (80B). Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward The energy of the power generation method with multiple stages of opposed series full-blade bouncer water turbine and opposed series full-blade bouncer gas turbine aiming to increase power generation by accelerating to the selected production length lens (2d) from existing materials Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating the existing lens cross section, the opposed series full blade impeller water turbine / opposite series full blade impeller gas turbine aiming to increase the concentrated power generation amount to the water (52b) pipe with sunlight from the existing lens cross section with the selected cross section long lens (2d) Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating to near vacuum, heat-insulated long lens (2d) and sunlight in the vicinity of right angle to maintain power at near right angle, aiming to increase power generation Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Various types of energy conservation in a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, split and tighten Various power generation methods with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines that aim to increase power generation by providing multiple long lenses (2d) tightening attachments (80B) as a set Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various energy conservation cycle coalescence engines of a power generation method in which a production long lens (2d) is long and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Various energy of the power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight of the selected section long lens (2d) Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration was accelerated vertically downward to bring it closer to vacuum Various types of power generation methods with multiple stages of opposed series full-blade bouncer water turbine and opposed series full-blade bouncer gas turbine that aim to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener ( 80B) Various energy conservation cycles of a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the tightening long lens (2d) are provided. Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravitational acceleration in vacuum vertically, split and tighten Various energy of the power generation method in which a multi-lens (2d) tightening tool (80B) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various energy conservation cycle coalescence engines of power generation method in which a long lens (2d) is long and an opposed series full blade impeller water turbine / opposed serial full blade impeller gas turbine is provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing lens cross section Various energy conservation of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation concentrated on the water (52b) pipe with the long section lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the part approaches vacuum Insulated long lens (2d) and various energy of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by maintaining sunlight near right angle Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward Power generation with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward A multi-length lens (2d) with multiple clamps (80B) tightened as a set is provided in multiple stages to provide a counter-series full blade impeller water turbine / opposed serial full blade propeller gas turbine that aims to increase power generation Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward , Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller water turbine aiming to increase power generation by lengthening production length lens (2d) from existing materials . 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward A series of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbines aiming to increase the amount of concentrated power generation from the existing lens cross section to a water (52b) pipe with sunlight selected by a long section lens (2d) provided in multiple stages Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward In a part close to vacuum, heat-insulated long lens (2d) and opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine are installed in multiple stages to aim at increasing power generation by maintaining sunlight near right angle Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Multi-stage opposed series full blade impeller water turbine / opposite series full blade impeller gas turbine that aims to increase power generation by increasing the width of the long lens (2d) for split fastener (80B) tightening Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward The counter-series full-blade bouncer water turbine and the counter-series full-blade bouncer gas turbine aiming to increase the amount of power generation by providing a set of multiple long lenses (2d) that are fastened to each other and tightened with a fastener (80B). Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward The energy of the power generation method with multiple stages of opposed series full-blade bouncer water turbine and opposed series full-blade bouncer gas turbine aiming to increase power generation by accelerating to the selected production length lens (2d) from existing materials Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating the existing lens cross section, the opposed series full blade impeller water turbine / opposite series full blade impeller gas turbine aiming to increase the concentrated power generation amount to the water (52b) pipe with sunlight from the existing lens cross section with the selected cross section long lens (2d) Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating to near vacuum, heat-insulated long lens (2d) and sunlight in the vicinity of right angle to maintain power at near right angle, aiming to increase power generation Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical Accelerating downward and increasing the width of the long lens (2d) for fastening the split fastener (80B) to increase the amount of power generation, the opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical Accelerating downward, split and providing a set of multiple long lenses (2d) with clamps (80B) to set the counter series full blade impeller water turbine / opposite series full blade impeller gas aiming to increase power generation Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical Various types of power generation methods with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of power generation by accelerating downward and making the selected production length lens (2d) long from existing materials Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical Accelerating downwards, facing series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical Accelerating downward, heat-insulated long lens (2d) and sunlight in the vicinity of a right angle in the part close to vacuum, aiming to increase the amount of power generation Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Various energies of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation by increasing the width of the long lens (2d) tightening tool (80B) Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and divided A power generation method in which a multi-long lens (2d) for tightening a fastener (80B) is provided as a set, and an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy conservation cycle coalescence engines of power generation method provided with multi stages of opposed series full blade impeller water turbine and opposed series full blade impeller water turbine aiming at increasing power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, cross-section of existing lens Various types of power generation methods with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of concentrated power generation in the water (52b) pipe with sunlight selected from the long lens (2d) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards closer to vacuum Power generation method with multi-stage opposed series all-blade bouncer water turbine and opposed series all-blade bouncer gas turbine that aim to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Various types of energy conservation in a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, divided and tightened Various power generation methods with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines that aim to increase power generation by providing multiple long lenses (2d) tightening attachments (80B) as a set Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various energy conservation cycle coalescence engines of a power generation method in which a production long lens (2d) is long and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from the existing lens cross section Various energy of the power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight of the selected section long lens (2d) Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to bring it closer to vacuum Various types of power generation methods with multiple stages of opposed series full-blade bouncer water turbine and opposed series full-blade bouncer gas turbine that aim to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Increase the vaporization explosive force to the maximum with the solar heater (2) + Add a vaporization explosive force + gravity acceleration in vacuum to the vertical downward direction in the vacuum and add a long lens (80B) Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming at increased power generation by increasing the width of 2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Increase the vaporization explosive force to the maximum with the solar heater (2) + increase the vaporization explosive force + gravity acceleration in the vacuum vertically further in the vertical direction, and divide and tighten multiple fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a long lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near-right angle + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to make the selected production length lens (2d) long Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected cross section lens (2d) is used to accelerate the sun Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing concentrated power generation amount in light (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near-right angle + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat insulating long lens (2d) near the vacuum And an all-energy-conserving cycle coalescence engine of a power generation method with multiple stages of opposed series full-blade bouncer water turbines and opposed series full-blade bouncer gas turbines that aim to increase power generation by maintaining sunlight at right angles. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase the vaporization explosive force to the maximum with the solar heater (2) + Accelerate the vaporization explosive force + gravitational acceleration vertically in the vacuum and tighten the split fastener (80B) Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase the vaporization explosive force to the maximum with the solar heater (2) + Accelerate the vaporization explosive force + gravitational acceleration vertically downward in the vacuum, and divide the fastener (80B) Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine, which are equipped with multiple tightening long lenses (2d) as a set, aiming to increase power generation amount . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vaporization explosive force + gravitational acceleration in a vacuum vertically in the vacuum and select from existing materials ) Is an energy generator cycle coalescence engine of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vaporization explosive force in vacuum + Gravitational acceleration in the vertical downward direction, select a cross-section long lens ( 2d) Various energy conservation cycle coalescence engines of a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are arranged in multiple stages aiming to increase the concentrated power generation amount in the water (52b) pipe in 2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase the vaporization explosive power to the maximum with the solar heater (2) + Add vaporization explosive force + gravity acceleration in the vacuum vertically in the vacuum and lengthen the heat insulation in the part close to the vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining the lens (2d) and sunlight near right angle . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at a right angle + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downwards to tighten the split fastener (80B) Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation by increasing the width of the attached long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at a right angle + Increase the vaporization explosive force to the maximum with the solar heater (2) + Accelerate the vaporization explosive force + gravitational acceleration in the vacuum vertically and divide the fastener (80B) ) Combining various energy conservation cycles of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by providing multiple tightening long lenses (2d) as a set organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle to sunlight + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and selected from existing materials Various energy conservation cycle coalescence engine of power generation method in which 2d) is long and opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at a right angle + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward to select a cross-section long lens from the existing lens cross section (2d) Combined engine with various energy conservation cycles for power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming at concentrated power generation increase in water (52b) pipe in (2d) . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at a right angle + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in gravity + Gravitational acceleration is accelerated vertically downward, and heat insulation is applied at the part close to vacuum Combining various energy conservation cycles in a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining long lens (2d) and sunlight near right angle organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Increase the vaporization explosive force to the maximum with the solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening the fastener (80B) ), A series of various energy conservation cycle coalescence engines with a power generation method that has multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material to increase the power generation amount Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is accelerated vertically downward, and the sunlight from the existing lens cross section with the selected cross-section long lens (2d) ( 52b) A combined energy storage cycle engine of a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the concentrated power generation amount in the pipe are provided. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vaporization explosive force in vacuum + Gravitational acceleration Accelerate vertically downward, and insulate the long lens (2d) and sunlight in the part close to the vacuum Various energy conservation cycle coalescing engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine maintained in the vicinity of a right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Increase the vaporization explosive force to the maximum with the light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by increasing. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Multi-long lens (2d) tightened with fastener (80B) by accelerating vaporization explosion force + gravity acceleration in vacuum additionally vertically downward by light heater (2) As a set, various energy storage cycle coalescing engines of the power generation method, which are equipped with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) increases vaporization explosive force to the maximum + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, aiming to increase power generation by making the selected long lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Vaporization explosive force increased to maximum with light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted to water (52b) from the existing lens cross section with a selected cross section long lens (2d) ) Various energy conservation cycle coalescence engines of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) increases vaporization explosive force to the maximum + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and heat insulating long lens (2d) and sunlight are perpendicular to the part near the vacuum Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine which are maintained in the vicinity and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Accelerating the vaporization explosive force + gravitational acceleration in the vertical direction, increasing the width of the long lens (2d) for tightening the split fastener (80B) and increasing the power generation amount.・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) with fastening tools (80B), and a counter-series full-wing blade wheel that aims to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is made long from the existing material. Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the opposed series all-wing blade bouncing water that aims to increase concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) with heat insulation is maintained in the vicinity of the vacuum in the part close to the vacuum, and an opposed series all blade impeller that aims to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Accelerating the vaporization explosive force + gravitational acceleration in the vertical direction, increasing the width of the long lens (2d) for tightening the split fastener (80B) and increasing the power generation amount.・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) with fastening tools (80B), and a counter-series full-wing blade wheel that aims to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is made long from the existing material. Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the opposed series all-wing blade bouncing water that aims to increase concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) with heat insulation is maintained in the vicinity of the vacuum in the part close to the vacuum, and an opposed series all blade impeller that aims to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum Vapor explosive force + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) tightened with the split fastener (80B) and increase the amount of power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening fasteners (80B), and opposed series full blades aiming at increased power generation Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the selected series long blade bouncer that aims to increase the amount of power generation by making the selected production length lens (2d) long from existing materials. Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the opposed series full-blade impeller that aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and a long lens (2d) with heat insulation is maintained near the vacuum in the part close to the vacuum, and opposed series whole blades aiming at increasing power generation by keeping sunlight near right angle Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for fastening the split fastener (80B) and oppose to increase power generation Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by increasing. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically, and tighten the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically, long lens for split clamp (80B) tightening ( Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming at increased power generation by increasing the width of 2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, long lens for split clamp (80B) tightening Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine that aim to increase power generation by increasing the width of (2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of multiple long lenses (2d) for fastening (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) As a set, various energy storage cycle coalescing engines of the power generation method, which are equipped with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically and divide and tighten the clamp (80B) Various energy conservation cycle coalescence engines of power generation method in which a multi-lens (2d) attached is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a long lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward and divided into fasteners (80B) Various energy conservation cycle coalescence engines of a power generation method in which a multi-long lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and a long lens (2d) is selected from existing materials to increase the amount of power generation. Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Heat recovery (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating the internal air (28a) with the compressed water heat exchanger (2Y) and heating the water (52b) + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward and selecting from existing materials Long lens (2d) Is an energy storage cycle coalescing engine with multiple generations of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the water (52b) with the compressed air calorie (28b) of the internal air calorie + Accelerate the vaporization explosive force + gravitational acceleration vertically in the vertical direction, select the existing production material from the long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration in vacuum additional vertical downward acceleration, select production length lens (2d) is long from existing materials Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is water (52b) from the existing lens cross section with the selected cross section long lens (2d) ) Various energy conservation cycle coalescence engines of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically in the vacuum, select the cross-section long lens (2d ) In the energy generation cycle coalescence engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the concentrated power generation amount in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is accelerated vertically downward, and the sun is selected with a long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing concentrated power generation amount in light (52b) pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase concentrated power generation amount in sunlight (52b) pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sunlight at right angle in the part approaching vacuum Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine which are maintained in the vicinity and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y), heat the water (52b) + vaporize explosive force in the vacuum + accelerate the gravitational acceleration vertically downward, heat insulation long lens near the vacuum (2d) and various energy conservation cycle coalescence engines of the power generation method in which the opposed series all blade impeller water turbine and the opposite series all blade impeller gas turbine are maintained in multiple stages while maintaining sunlight at a right angle. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating the water (52b) with the compressed air calorie (28b) of the internal air calorie + vaporizing explosive force + gravitational acceleration in the vacuum, vertically accelerating vertically downward, heat insulating long lens (2d) And an all-energy-conserving cycle coalescence engine of a power generation method with multiple stages of opposed series full-blade bouncer water turbines and opposed series full-blade bouncer gas turbines that aim to increase power generation by maintaining sunlight at right angles. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for heat insulation at the part approaching the vacuum ) And sunlight in the vicinity of a right angle, and various energy conservation cycle coalescence engines of the power generation method provided with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward to achieve the same maximum amount of water generation The opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward to achieve the same maximum water output. Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating the internal air (28a) with the compressed water heat exchanger (2Y) and heating the water (52b) + vaporizing explosive force in the vacuum + accelerating gravitational acceleration vertically downwards Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in gravity + gravitational acceleration is further accelerated vertically downward, opposed series all blade impeller aiming at the same amount of water maximum power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, opposed series all blades aiming at the same water volume maximum power generation Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the power generation amount. Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided and provided with a set of multiple long lenses (2d) for fastening (80B), facing each other to increase power generation Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) Acceleration of vaporization in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation. Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted from the existing lens cross-section to the water (52b) tube with the selected cross-section long lens (2d). Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation is kept close to the vacuum in the part close to the vacuum, and the opposite is aimed at increasing power generation Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by increasing. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening (80B) As a set, various energy storage cycle coalescing engines of the power generation method, which are equipped with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, aiming to increase power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is taken from the existing lens cross section with a selected cross-sectional length lens (2d) (52b) ) Various energy conservation cycle coalescence engines of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up, etc. + Solar heater (2) + Vaporization explosive force + Gravity acceleration in vacuum Accelerate vertically downward, heat insulation long lens (2d) and sunlight at right angle Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine which are maintained in the vicinity and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for tightening the split fastener (80B) ) To increase the amount of power generation, and a combined energy storage cycle combined engine of a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, divided into multiple lengths of fastening tool (80B) Various energy conservation cycle coalescence engines of power generation method in which a lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Left and right up and down etc. with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and selected long lens (2d) is selected from existing materials for power generation Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and a long lens (2d) for heat insulation is used near the vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right and up with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to divide the long lens (80B) Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming at increased power generation by increasing the width of 2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward and divided into multiple fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a long lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to make the selected production length lens (2d) long Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up, etc. with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and the sun is selected from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing concentrated power generation amount in light (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down, etc. + Solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and a long lens (2d) for heat insulation at the part close to the vacuum And an all-energy-conserving cycle coalescence engine of a power generation method with multiple stages of opposed series full-blade bouncer water turbines and opposed series full-blade bouncer gas turbines that aim to increase power generation by maintaining sunlight at right angles. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, opposing series full motion aiming at increased power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross-section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force + Gravity acceleration in vacuum Accelerate vertically downward, and keep the long lens (2d) of heat insulation and sunlight close to right angle near the vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate power Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long-length lenses (2d) for fastening a fastener (80B). Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and the opposed series all blades aiming at increasing power generation by making the selected long lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross-section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Sunlight heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to maintain heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward and divided into a multiple length lens (2d) for fastening with a fastener (80B) Various energy conservation cycle coalescence engines of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that are installed as a set and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, opposes aiming to increase power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) (52b) Various energy conservation cycle coalescence engines of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade pusher gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight near right angle near the vacuum This is a combined energy storage cycle engine with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines, which are maintained at the same time and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Left and right and up with a hanging tool + solar heater (2) + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, long lens (2d) for tightening split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Left and right and up with a hanging tool + solar heater (2) + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, divided into multiple long lenses for fastening (80B) Various energy conservation cycle coalescence engines of the power generation method in which (2d) is provided as a set, and the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is made long from the existing material. Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engine of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine gas turbines are provided in multiple stages in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation and the sun are close to the vacuum. Various energy conservation cycle coalescence engine of power generation method with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine maintaining light in the vicinity of right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a hanging tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for split fastening (80B) fastening ) To increase the amount of power generation, and a combined energy storage cycle combined engine of a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple lengths of fastening tool (80B) Various energy conservation cycle coalescence engines of power generation method in which a lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to select a long lens (2d) to be produced from existing materials for power generation Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a hanging tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation in the part approaching the vacuum Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate power Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long-length lenses (2d) for fastening a fastener (80B). Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and the opposed series all blades aiming at increasing power generation by making the selected long lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross-section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Sunlight heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to maintain heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and an opposed series full-blade impeller that aims to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated into the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, long lens for split clamp (80B) tightening ( Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming at increased power generation by increasing the width of 2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, divided into multiple fasteners (80B) tightening Various energy conservation cycle coalescence engines of power generation method in which a long lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward to make the selected production length lens (2d) long Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) Compressive heat recovery of internal air + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward and the sun is selected from the existing lens cross section with the selected cross section length lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing concentrated power generation amount in light (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) internal heat recovery + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, heat insulating long lens near the vacuum (2d) And an all-energy-conserving cycle coalescence engine of a power generation method with multiple stages of opposed series full-blade bouncer water turbines and opposed series full-blade bouncer gas turbines that aim to increase power generation by maintaining sunlight at right angles. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar light heater (2) Compressed heat recovery + Evaporative explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split fastener (80B) is tightened Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine, which are equipped with multiple tightening long lenses (2d) as a set, aiming to increase power generation amount . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) Compressive heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select from existing materials Manufacturing lens (2d ) Is an energy generator cycle coalescence engine of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar light heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a cross-section long lens ( 2d) Various energy conservation cycle coalescence engines of a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are arranged in multiple stages aiming to increase the concentrated power generation amount in the water (52b) pipe in 2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar light heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation in the part near the vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining the lens (2d) and sunlight near right angle . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with the lifting tool + Solar heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to divide the clamp (80B) Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation by increasing the width of the attached long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) ) Combining various energy conservation cycles of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by providing multiple tightening long lenses (2d) as a set organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a hanging tool + Solar heating (2) Compressed heat recovery of the internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a production length lens (existing material) Various energy conservation cycle coalescence engine of power generation method in which 2d) is long and opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + Solar heater (2) Compressed heat recovery of the internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a long section from the existing lens cross section (2d) Combined engine with various energy conservation cycles for power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming at concentrated power generation increase in water (52b) pipe in (2d) . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting device + Solar heater (2) Compressed heat recovery of the internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to insulate the part close to the vacuum Combining various energy conservation cycles in a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining long lens (2d) and sunlight near right angle organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with a fastener (80B) ), A series of various energy conservation cycle coalescence engines with a power generation method that has multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by selecting a long production lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) ( 52b) A combined energy storage cycle engine of a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the concentrated power generation amount in the pipe are provided. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Sunlight heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight in the part close to vacuum Various energy conservation cycle coalescing engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine maintained in the vicinity of a right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the width of long lens (2d) for split clamp (80B) tightening Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by increasing. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) As a set, various energy storage cycle coalescing engines of the power generation method, which are equipped with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted into water (52b) from the existing lens cross section with a selected cross section long lens (2d) ) Various energy conservation cycle coalescence engines of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight at right angles in the part approaching vacuum Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine which are maintained in the vicinity and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) internal heat (28a) compression heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, split fastener (80B) Various types of energy conservation in a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, divided and tightened Various power generation methods with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines that aim to increase power generation by providing multiple long lenses (2d) tightening attachments (80B) as a set Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) Internal air (28a) compression heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward and selected from existing materials Various energy conservation cycle coalescence engines of a power generation method in which a production long lens (2d) is long and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) internal air (28a) compression heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward from the existing lens cross section Various energy of the power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight of the selected section long lens (2d) Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) Internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward to approach the vacuum Various types of power generation methods with multiple stages of opposed series full-blade bouncer water turbine and opposed series full-blade bouncer gas turbine that aim to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, Power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine for increasing the amount of power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, A multi-length lens (2d) for tightening the fastener (80B) is provided as a set, and an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed serial full blade impeller gas turbine aiming at increasing power generation by lengthening the selected production long lens (2d) from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, Power generation with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation concentrated on the water (52b) pipe with sunlight selected from the existing lens cross section long lens (2d) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, In the part close to the vacuum, a long lens (2d) for heat insulation and an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine that aim to increase the amount of power generation by maintaining sunlight near right angles are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward Power generation with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward A multi-length lens (2d) with multiple clamps (80B) tightened as a set is provided in multiple stages to provide a counter-series full blade impeller water turbine / opposed serial full blade propeller gas turbine that aims to increase power generation Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward , Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller water turbine aiming to increase power generation by lengthening production length lens (2d) from existing materials . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward A series of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbines aiming to increase the amount of concentrated power generation from the existing lens cross section to a water (52b) pipe with sunlight selected by a long section lens (2d) provided in multiple stages Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward In a part close to vacuum, heat-insulated long lens (2d) and opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine are installed in multiple stages to aim at increasing power generation by maintaining sunlight near right angle Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Explosive force of vaporization in vacuum + Gravitational acceleration is further accelerated vertically downward and split fastener (80B) is tightened Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation by increasing the width of the attached long lens (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) ) Combining various energy conservation cycles of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by providing multiple tightening long lenses (2d) as a set organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Recover internal air (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated vertically downward, select from existing materials Various energy conservation cycle coalescence engine of power generation method in which 2d) is long and opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Internal air (28a) with heat pump (1G) recovering heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to select a cross-section long lens from the existing lens cross section (2d) Combined engine with various energy conservation cycles for power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming at concentrated power generation increase in water (52b) pipe in (2d) . 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Internal air (28a) with heat pump (1G) recovering compression heat + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, heat insulation at the part approaching vacuum Combining various energy conservation cycles in a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining long lens (2d) and sunlight near right angle organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered with compression heat by heat pump (1G) + Explosive force of vaporization + Gravitational acceleration in vacuum is further accelerated vertically and tightened by split fastener (80B) Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine, which are equipped with multiple tightening long lenses (2d) as a set, aiming to increase power generation amount . 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosion force + Gravitational acceleration in vacuum is further accelerated vertically downward and selected from existing materials Long lens (2d ) Is an energy generator cycle coalescence engine of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward from the existing lens cross section. 2d) Various energy conservation cycle coalescence engines of a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are arranged in multiple stages aiming to increase the concentrated power generation amount in the water (52b) pipe in 2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation is long at the part close to vacuum Various energy conservation cycle coalescence engines with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining the lens (2d) and sunlight near right angle . 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerating and increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation, the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward A counter-series full-blade bouncer water turbine and a counter-series full-blade bouncer gas turbine that aim to increase power generation by accelerating, splitting, and providing a set of multiple long lenses (2d) with clamps (80B) tightened. Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerating and saving various types of energy in the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by lengthening the selected production long lens (2d) from existing materials Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of power generation by accelerating and selecting sunlight from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerating the long lens (2d) of heat insulation and the sunlight in the vicinity of the right angle in the part near the vacuum, and the opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine that aims to increase power generation Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum Accelerating further vertically downward, increasing the width of the long lens (2d) of the split fastener (80B) tightening and aiming to increase the amount of power generation Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum Accelerating further vertically downward, split and provide a set of multiple long lenses (2d) with clamps (80B) to set the opposed series full blade impeller water turbine / opposed series full blade Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum Power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of power generation by accelerating the additional vertical downward and making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum Accelerating the additional vertical downward, the opposed series full blade impeller water turbine / opposite series full blade impeller that aims to increase the amount of concentrated power generation from the existing lens section to the water (52b) pipe with the selected section length lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum Accelerating further vertically downward, heat-insulated long lens (2d) and sunlight in the vicinity of a right angle near the vacuum, aiming to increase power generation Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration Is added to the vertical series of moving blades, and the width of the long lens (2d) of the split fastener (80B) is increased to increase the amount of power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration Accelerating vertically downward, dividing and providing a set of multiple long lenses (2d) with tightening tools (80B) to set the opposed series full blade impeller water turbine / opposed series full motion Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration Power generation with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by accelerating vertically downward and selecting a long lens (2d), which is a selected production length lens, from existing materials Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration Accelerating vertically downward, with a cross-section lens (2d) selected from the existing lens cross section, the sunlight (water) to the water (52b) pipe aims to increase the amount of power generation. Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration Accelerating vertically downward, heat-insulated long lens (2d) in the part close to the vacuum and the sunlight in the vicinity of the right angle, aiming to increase the amount of power generation Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, Power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine for increasing the amount of power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, A multi-length lens (2d) for tightening the fastener (80B) is provided as a set, and an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed serial full blade impeller gas turbine aiming at increasing power generation by lengthening the selected production long lens (2d) from existing materials. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, Power generation with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation concentrated on the water (52b) pipe with sunlight selected from the existing lens cross section long lens (2d) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, In the part close to the vacuum, a long lens (2d) for heat insulation and an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine that aim to increase the amount of power generation by maintaining sunlight near right angles are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided A power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages to increase the width of the long lens (2d) for tightening the fastener (80B) Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided Then, a multi-long lens (2d) for tightening the fastener (80B) is provided as a set, and power generation with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Various energy conservation cycle coalescence engine of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation by making the production long lens (2d) long from material. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing A power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the concentrated power generation amount in a water (52b) pipe with sunlight selected from a lens cross section with a long lens (2d) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, Power generation with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Power generation with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum A multi-length lens (2d) with multiple clamps (80B) tightened as a set is provided in multiple stages to provide a counter-series full blade impeller water turbine / opposed serial full blade propeller gas turbine that aims to increase power generation Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum , Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller water turbine aiming to increase power generation by lengthening production length lens (2d) from existing materials . 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum A series of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbines aiming to increase the amount of concentrated power generation from the existing lens cross section to a water (52b) pipe with sunlight selected by a long section lens (2d) provided in multiple stages Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum In a part close to vacuum, heat-insulated long lens (2d) and opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine are installed in multiple stages to aim at increasing power generation by maintaining sunlight near right angle Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Multi-stage opposed series full blade impeller water turbine / opposite series full blade impeller gas turbine that aims to increase power generation by increasing the width of the long lens (2d) for split fastener (80B) tightening Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward The counter-series full-blade bouncer water turbine and the counter-series full-blade bouncer gas turbine aiming to increase the amount of power generation by providing a set of multiple long lenses (2d) that are fastened to each other and tightened with a fastener (80B). Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward The energy of the power generation method with multiple stages of opposed series full-blade bouncer water turbine and opposed series full-blade bouncer gas turbine aiming to increase power generation by accelerating to the selected production length lens (2d) from existing materials Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating the existing lens cross section, the opposed series full blade impeller water turbine / opposite series full blade impeller gas turbine aiming to increase the concentrated power generation amount to the water (52b) pipe with sunlight from the existing lens cross section with the selected cross section long lens (2d) Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating to near vacuum, heat-insulated long lens (2d) and sunlight in the vicinity of right angle to maintain power at near right angle, aiming to increase power generation Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically Accelerating downward and increasing the width of the long lens (2d) for fastening the split fastener (80B) to increase the amount of power generation, the opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically Accelerating downward, split and providing a set of multiple long lenses (2d) with clamps (80B) to set the counter series full blade impeller water turbine / opposite series full blade impeller gas aiming to increase power generation Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically Various types of power generation methods with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of power generation by accelerating downward and making the selected production length lens (2d) long from existing materials Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically Accelerating downwards, facing series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically Accelerating downward, heat-insulated long lens (2d) and sunlight in the vicinity of a right angle in the part close to vacuum, aiming to increase the amount of power generation Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Various energies of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation by increasing the width of the long lens (2d) tightening tool (80B) Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Accelerating gravity acceleration additional vertically downward and dividing A power generation method in which a multi-long lens (2d) for tightening a fastener (80B) is provided as a set, and an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy conservation cycle coalescence engines of power generation method provided with multi stages of opposed series full blade impeller water turbine and opposed series full blade impeller water turbine aiming at increasing power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, cross section of existing lens Various types of power generation methods with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of concentrated power generation in the water (52b) pipe with sunlight selected from the long lens (2d) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Sunlight heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downwards, approaching vacuum Power generation method with multi-stage opposed series all-blade bouncer water turbine and opposed series all-blade bouncer gas turbine that aim to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Various types of energy conservation in a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, split and tighten Various power generation methods with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines that aim to increase power generation by providing multiple long lenses (2d) tightening attachments (80B) as a set Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various energy conservation cycle coalescence engines of a power generation method in which a production long lens (2d) is long and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Various energy of the power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight of the selected section long lens (2d) Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration was accelerated vertically downward to bring it closer to vacuum Various types of power generation methods with multiple stages of opposed series full-blade bouncer water turbine and opposed series full-blade bouncer gas turbine that aim to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward The multi-stage opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages to increase the width of the long lens (2d) for tightening the split fastener (80B). Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward The multi-stage lens (2d) with multiple fasteners (80B) is divided and provided as a set, and the opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward Combined with various energy conservation cycle of power generation method with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming to increase power generation by making the selected production long lens (2d) long from existing materials organ. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward A multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward In a part close to a vacuum, heat insulation long lens (2d) and sunlight are kept near right angle, aiming to increase power generation, opposed series full blade impeller water turbine, opposed series full blade impeller gas turbine in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically Accelerating downward and increasing the width of the long lens (2d) for fastening the split fastener (80B) to increase the amount of power generation, the opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically Accelerating downward, split and providing a set of multiple long lenses (2d) with clamps (80B) to set the counter series full blade impeller water turbine / opposite series full blade impeller gas aiming to increase power generation Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically Various types of power generation methods with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of power generation by accelerating downward and making the selected production length lens (2d) long from existing materials Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically Accelerating downwards, facing series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically Accelerating downward, heat-insulated long lens (2d) and sunlight in the vicinity of a right angle in the part close to vacuum, aiming to increase the amount of power generation Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added Opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine that accelerates vertically downward and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added A counter-series full-blade pusher water turbine / opposite series full-blade pusher wheel that accelerates vertically downward and divides and is provided with a set of multiple long lenses (2d) tightened with a fastener (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added A power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages, aiming to increase the amount of power generation by accelerating vertically downward and selecting a long production length lens (2d) from existing materials. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added Accelerating vertically downward, with a selected cross-sectional length lens (2d) from the existing lens cross section, aiming to increase the amount of concentrated power generation from the sunlight to the water (52b) pipe. Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added Accelerating vertically downward, heat-insulated long lens (2d) and sunlight in the vicinity of a right angle near the vacuum, aiming to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Various types of power generation methods with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by increasing the width of the long lens (2d) for fastening the attachment (80B) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided Power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by providing a set of multiple long lenses (2d) for tightening the clamp (80B) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, existing materials Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation by making the production length lens (2d) long. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, existing lens A power generation method in which opposed series full blade impeller water turbines and opposed series full bucket impeller gas turbines are provided in multiple stages, aiming to increase the amount of concentrated power generation from sunlight to the water (52b) tube with a long section lens (2d) selected from the cross section. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward Power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining heat insulation long lens (2d) near the right angle in the close part Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Various energies of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation by increasing the width of the long lens (2d) tightening tool (80B) Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and divided A power generation method in which a multi-long lens (2d) for tightening a fastener (80B) is provided as a set, and an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy conservation cycle coalescence engines of power generation method provided with multi stages of opposed series full blade impeller water turbine and opposed series full blade impeller water turbine aiming at increasing power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, cross-section of existing lens Various types of power generation methods with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase the amount of concentrated power generation in the water (52b) pipe with sunlight selected from the long lens (2d) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards closer to vacuum Power generation method with multi-stage opposed series all-blade bouncer water turbine and opposed series all-blade bouncer gas turbine that aim to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, long lens for split clamp (80B) tightening Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine that aim to increase power generation by increasing the width of (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) Various energy conservation cycle coalescence engines of a power generation method in which a multi-long lens (2d) is provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a long lens (2d) from the existing material Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right up and down + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and from existing lens cross section with selected cross section length lens (2d) Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase concentrated power generation amount in sunlight (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) ) And sunlight in the vicinity of a right angle, and various energy conservation cycle coalescence engines of the power generation method provided with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Lift the left and right and up with the lifting tool + Increase the vaporization explosive force to the maximum with the solar heater (2) + Accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically and tighten the split fastener (80B) Various energy conservation cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increasing power generation by increasing the width of the attached long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Left and right and up with the lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) ) Combining various energy conservation cycles of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by providing multiple tightening long lenses (2d) as a set organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase / decrease the vaporization explosive force to the maximum with a solar heater (2) + Add vaporization explosive force in gravity + Gravitational acceleration in the vertical downward direction, select from existing materials Various energy conservation cycle coalescence engine of power generation method in which 2d) is long and opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase and decrease the vaporization explosion force to the maximum with the solar heater (2) + Add vaporization explosion force in gravity + Gravitational acceleration in the vertical downward direction, select a cross-section long lens from the existing lens cross section (2d) Combined engine with various energy conservation cycles for power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming at concentrated power generation increase in water (52b) pipe in (2d) . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase / decrease the vaporization explosion force with the solar heater (2) + Increase vaporization explosion force + gravitational acceleration in the vacuum vertically in the vacuum, heat insulation in the part close to the vacuum Combining various energy conservation cycles in a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine that aim to increase power generation by maintaining long lens (2d) and sunlight near right angle organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine aiming to increase power generation amount by increasing the width of tightening long lens (2d) . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with the lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners ( 80B) Various energy conservation cycles of a power generation method in which a plurality of tightened multiple lenses (2d) are provided as a set and an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages to increase power generation Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and selected from existing materials Various energy conservation cycle coalescence engines of power generation method in which (2d) is long and an opposed series full blade impeller water turbine and opposed series full bucket impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and selected cross-section length from existing lens cross-section Combined with various energy conservation cycles of the power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the amount of power generation concentrated on the water (52b) pipe with sunlight through the lens (2d) organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward to insulate the part close to the vacuum Energy storage cycle of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller water turbine aiming to increase power generation by maintaining sunlight at right angle near right lens (2d) Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is further accelerated vertically downward, and the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full bucket impeller water turbine and opposed series full bucket flywheel gas turbine aiming to increase power generation by increasing the width. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (80B) tightened ( 2d) is a set of various energy conservation cycle coalescence engines of the power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase in vaporization and explosion force to maximum with solar heater (2) + Vaporization and explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vapor explosive force in the vacuum + Gravitational acceleration to accelerate vertically downward, and water from the existing lens cross section with the selected cross section long lens (2d) (52b) A combined energy storage cycle engine of a power generation method in which a multi-stage opposed series full bucket moving vehicle water turbine and opposed series full bucket flying vehicle gas turbine aiming to increase the amount of concentrated power generation in a pipe are provided. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation and sunlight in the part close to the vacuum Is an energy-saving cycle coalescing engine of a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine are maintained in a multi-stage to maintain power in the vicinity of a right angle. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming at increased power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increase the vaporization explosive force to the maximum with the solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening the fastener (80B) ), A series of various energy conservation cycle coalescence engines with a power generation method that has multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material to increase the power generation amount Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is accelerated vertically downward, and the sunlight from the existing lens cross section with the selected cross-section long lens (2d) ( 52b) A combined energy storage cycle engine of a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine aiming to increase the concentrated power generation amount in the pipe are provided. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vaporization explosive force in vacuum + Gravitational acceleration Accelerate vertically downward, and insulate the long lens (2d) and sunlight in the part close to the vacuum Various energy conservation cycle coalescing engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine maintained in the vicinity of a right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Preventing Global Warming + Vaporization Explosive Force in Vacuum + Gravity Acceleration Accelerates Vertically Downward, Split Fastener (80B) Fastening Long Lens (2d) This is a combined energy storage cycle engine with multiple stages of series turbine blade water turbine and series turbine blade gas turbines that aim to increase power generation by increasing the width of the turbine. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Generation Method to Prevent Global Warming + Vaporization Explosive Force in Vacuum + Gravity Acceleration is further accelerated vertically downward and divided into multiple long lenses with fastening tools (80B) Various energy storage cycle coalescence engines of the power generation method in which (2d) is provided as a set and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro aerodynamic Solar power generation method to prevent global warming + Vaporization explosion force in vacuum + Gravity acceleration is accelerated vertically downward, and selected production length lens (2d) from existing material is made long and power generation amount Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-pneumatic solar power generation method to prevent global warming + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which water turbine (52b) is provided in multiple stages with series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing concentrated power generation. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-pneumatic solar power generation to prevent global warming + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sun Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and serial full bucket flywheel gas turbine aiming to increase power generation by maintaining light near right angle. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, split fastener (80B ) Various energy conservation cycle coalescence engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, divided and clamped (80B) Combining various energy conservation cycles of a power generation method in which a series of all-blade propulsion water turbines and series all-blade propulsion gas turbines are provided in multiple stages to provide a plurality of tightened long lenses (2d) as a set organ. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward and selected from existing materials Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing power generation with long lens (2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation with CO2 Exhaust Zero Power Generation + Solar Heater (2) + Vaporization Explosive Force in Vacuum + Gravitational Acceleration Accelerates Vertically Downward, Selects Cross Section from Existing Lens Cross Section Combined engine with various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming at increasing concentrated power generation amount with long lens (2d) in water (52b) pipe . 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with zero CO2 emissions + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward at the part approaching the vacuum Combined various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle organ. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, split fastener (80B ) Various energy conservation cycle coalescence engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, divided and clamped (80B) Combining various energy conservation cycles of a power generation method in which a series of all-blade propulsion water turbines and series all-blade propulsion gas turbines are provided in multiple stages to provide a plurality of tightened long lenses (2d) as a set organ. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward and selected from existing materials Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing power generation with long lens (2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation with CO2 Exhaust Zero Power Generation + Solar Heater (2) + Vaporization Explosive Force in Vacuum + Gravitational Acceleration Accelerates Vertically Downward, Selects Cross Section from Existing Lens Cross Section Combined engine with various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming at increasing concentrated power generation amount with long lens (2d) in water (52b) pipe . 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with zero CO2 emissions + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward at the part approaching the vacuum Combined various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle organ. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward A power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the long lens (2d) for tightening the split fastener (80B). Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward In addition, a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines that are divided and provided with a plurality of long lenses (2d) for tightening the fasteners (80B) as a set are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward In addition, various energy conservation cycle coalescence engines of a power generation method provided with multiple stages of a series full blade impeller water turbine and a series full bucket impeller water turbine and a series full bucket impeller water turbine aiming to increase the amount of power generation by making the selected production long lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward Power generation with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward In a part close to a vacuum, a heat insulating long lens (2d) and a series full blade impeller water turbine and a series full blade impeller gas turbine that maintain the sunlight in the vicinity of a right angle and aim to increase power generation are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration A series full blade impeller water turbine / series full blade impeller gas turbine that accelerates further vertically downward and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum In-line full blade impeller water turbine that aims to increase power generation by increasing the length of the long lens (2d) tightening the split fastener (80B) by accelerating the vaporization explosive force + gravitational acceleration inside・ Various types of energy conservation cycle coalescence engine with power generation method with multiple turbine blades in series. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) of the split fastener (80B) and increase the power generation amount. Combined engine of various energy conservation cycles of power generation method with multiple stages of moving bucket water turbine and series all moving blade booster gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase power generation in series Various energy storage cycle coalescence engine of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade turbine gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration A series full blade impeller water turbine and a series full blade impeller gas aiming to increase power generation by accelerating further downward vertically and providing a set of multiple long lenses (2d) tightened with fasteners (80B). Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum A series of all-blade impellers that aim to increase power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward, and dividing and providing a set of multiple long lenses (2d) with fastening tools (80B) Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, divided into multiple long lenses (2d) for fastening fasteners (80B), and a set of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for fastening the fastener (80B) to increase power generation Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and a plurality of long lenses (2d) tightened with a fastener (80B) are provided as a set to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration Various types of power generation methods with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine that aim to increase the amount of power generation by accelerating the additional vertical downward and making the selected production length lens (2d) long from existing materials Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum In-line full blade impeller water turbine and in-series full blade impeller gas turbine, aiming to increase power generation by accelerating the vaporization explosive force + gravitational acceleration vertically downward and selecting a long lens (2d) that is selected from existing materials Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Water turbine (52b) is a series of all-bladed impeller water turbines that aim to increase power generation by increasing the length of the selected production long lens (2d) from existing materials by accelerating the vaporization explosive force + gravitational acceleration in vacuum + adding vacuum vertically・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines installed in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosion force in vacuum + Gravity acceleration is accelerated vertically downward, and a series of all-blade propulsion water turbines in series that aim to increase power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration A series full blade impeller water turbine / series full blade impeller gas turbine that accelerates further vertically downward and aims to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum In-line full-wing blade bouncing water that accelerates vaporization explosion force + gravitational acceleration vertically downward, and aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross-section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is increased to the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d). This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and a series of lenses aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross-section to the water (52b) tube with the selected cross-section long lens (2d) Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration Accelerating further vertically downward, insulative long lens (2d) and sunlight in the vicinity of right angle in the part close to the vacuum, aiming to increase the amount of power generation series all blade impeller water turbine / series all blade impeller gas Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum A series of all-blade impellers that aim to increase power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward and maintaining heat insulation long lens (2d) and sunlight at right angles near the vacuum Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of the vacuum. Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to the vacuum, aiming to increase power generation Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket pusher gas turbine that aim at the same maximum water generation by accelerating further vertically downward. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and various energy conservation of power generation methods with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming at the same maximum water generation amount in multiple stages. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the amount of water generated in series. Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and power generation with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming at the same maximum amount of water generation Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward, and a series of full blade impeller water turbines and serial full blade impeller gas turbines aiming at the same maximum water generation are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + drop increase by pumping pump (1H) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, split tightening Various energy conservation cycles of a power generation method in which a series all-blade bouncer water turbine and a series all-blade bouncer gas turbine are provided in multiple stages to increase the power generation amount by increasing the width of the long lens (2d) tightening the tool (80B) Combined organization. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature 7 degrees + drop increase with pumping pump (1H) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward and divided Various energy of the power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of long-length lenses (2d) for tightening the fastener (80B) and aim to increase power generation. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + Drop increase with pumping pump (1H) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method to abolish seawater surface temperature 7 degrees + drop increase with pumping pump (1H) + vaporization explosive force + gravity acceleration in vacuum additional vertical cross-section Energy saving of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller gas turbine aiming at increasing concentrated power generation amount in the water (52b) pipe with sunlight selected by long lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic solar power generation method of abolishing sea water surface temperature by 7 degrees + Drop increase with pumping pump (1H) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards closer to vacuum Insulated long lens (2d) and solar energy in the vicinity of a right angle, and a series of all blade impeller water turbines and series all blade impeller gas turbines that aim to increase the amount of power generation. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat-insulating material (2c) half-cylinder outer box (77B) vaporization explosive force + gravity acceleration A series full blade impeller water turbine / series full blade impeller gas turbine that accelerates further vertically downward and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat-insulating material (2c) half-cylinder outer box (77B) vaporization explosive force + gravity acceleration A series full blade impeller water turbine and a series full blade impeller gas aiming to increase power generation by accelerating further downward vertically and providing a set of multiple long lenses (2d) tightened with fasteners (80B). Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat-insulating material (2c) half-cylinder outer box (77B) vaporization explosive force + gravity acceleration Various types of power generation methods with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine that aim to increase the amount of power generation by accelerating the additional vertical downward and making the selected production length lens (2d) long from existing materials Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat-insulating material (2c) half-cylinder outer box (77B) vaporization explosive force + gravity acceleration A series full blade impeller water turbine / series full blade impeller gas turbine that accelerates further vertically downward and aims to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat-insulating material (2c) half-cylinder outer box (77B) vaporization explosive force + gravity acceleration Accelerating further vertically downward, insulative long lens (2d) and sunlight in the vicinity of right angle in the part close to the vacuum, aiming to increase the amount of power generation series all blade impeller water turbine / series all blade impeller gas Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches absolute 0 degree + solar heat augmented suspension bridge (2b) lengthened by joint (80A) Evaporative explosive force in vacuum + Series all blade impeller water turbine / series all blades aiming to increase power generation by accelerating gravitational acceleration vertically downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar heat augmented suspension bridge with a long joint (80A) (2b) vaporization explosive force in vacuum + Accelerating the gravitational acceleration vertically downward, dividing and providing a set of multiple long lenses (2d) with fastening tools (80B) to increase the power generation amount. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar heat augmented suspension bridge with a long joint (80A) (2b) vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and the series production blade lens (2d) from the existing material is made long and the series all blade impeller water turbine and the series all blade impeller gas turbine are aimed at increasing power generation in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar heat augmented suspension bridge with a long joint (80A) (2b) vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, and using a cross-section lens (2d) from the existing lens cross-section, aiming to increase the amount of power generated by concentrated sunlight into the water (52b) pipe. Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar heat augmented suspension bridge with a long joint (80A) (2b) vaporization explosive force in vacuum + Accelerating the gravitational acceleration vertically downward, and maintaining a long lens (2d) of heat insulation and sunlight in the vicinity of a right angle near the vacuum, aiming to increase power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Air Power Photovoltaic Opposite Series All-Boiled Pusher Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly 0 Degrees + Solar Heating Suspension Bridge (2b) Vaporized Explosion in Vacuum A series of all-blade propulsion wheel water turbines and series full motions that aim to increase power generation by increasing the width of the long lens (2d) for split clamp (80B) tightening by accelerating force + gravitational acceleration downward Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Air Power Photovoltaic Opposite Series All-Boiled Pusher Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly 0 Degrees + Solar Heating Suspension Bridge (2b) Vaporized Explosion in Vacuum A series of all-blade propulsion turbine water turbines that aim to increase power generation by accelerating the force + gravity acceleration downward vertically, dividing and providing a set of multiple long lenses (2d) with fastening tools (80B) Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Air Power Photovoltaic Opposite Series All-Boiled Pusher Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly 0 Degrees + Solar Heating Suspension Bridge (2b) Vaporized Explosion in Vacuum A series of full blade impeller water turbines and serial full blade impeller gas turbines are installed in multiple stages, aiming to increase power generation by increasing the force + gravitational acceleration vertically downward and selecting a long lens (2d) from the existing material. Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Air Power Photovoltaic Opposite Series All-Boiled Pusher Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly 0 Degrees + Solar Heating Suspension Bridge (2b) Vaporized Explosion in Vacuum Additional power + gravity acceleration Accelerates vertically downward, from the cross section of the existing lens Select the long section lens (2d) to direct sunlight into the water (52b) pipe aiming to increase concentrated power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Air Power Photovoltaic Opposite Series All-Boiled Pusher Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly 0 Degrees + Solar Heating Suspension Bridge (2b) Vaporized Explosion in Vacuum A series of all-bladed impeller water turbines that aim to increase power generation by accelerating force + gravitational acceleration vertically downward and maintaining a long lens (2d) of heat insulation and sunlight at a right angle near the vacuum Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Rotor Wheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified Houses Primed + Vaporized Explosive Force + Gravity Acceleration Added Vertically Downward Accelerating and increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation, the series full blade impeller water turbine and the serial full blade impeller gas turbine are provided in multiple stages. Various energy conservation cycle coalescence engine of power generation method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Rotor Wheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified Houses Primed + Vaporized Explosive Force + Gravity Acceleration Added Vertically Downward Multi-stage series full blade impeller water turbine / series full blade impeller gas turbine that aims to increase power generation by accelerating, splitting and providing multiple long lenses (2d) for fastening fasteners (80B) as a set Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Rotor Wheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified Houses Primed + Vaporized Explosive Force + Gravity Acceleration Added Vertically Downward Combined with various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by accelerating and selecting long production length lens (2d) from existing materials organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Rotor Wheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified Houses Primed + Vaporized Explosive Force + Gravity Acceleration Added Vertically Downward Accelerate and install a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines in multiple stages, aiming to increase concentrated power generation from the existing lens cross section to the water (52b) pipe with sunlight selected from the long section (2d) Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Rotor Wheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified Houses Primed + Vaporized Explosive Force + Gravity Acceleration Added Vertically Downward Accelerate and maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase the power generation amount. Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero-photovoltaic power generation Opposite series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + vaporization explosive force in vacuum + acceleration of gravity accelerated vertically downward The multi-stage power generation with the series full blade impeller water turbine and the serial full blade impeller gas turbine aiming to increase the amount of power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero-photovoltaic power generation Opposite series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + vaporization explosive force in vacuum + acceleration of gravity accelerated vertically downward A series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to divide and provide a set of multiple long lenses (2d) for tightening fasteners (80B). Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero-photovoltaic power generation Opposite series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + vaporization explosive force in vacuum + acceleration of gravity accelerated vertically downward In addition, various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming at increasing power generation by making the selected production length lens (2d) long from existing materials . 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero-photovoltaic power generation Opposite series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + vaporization explosive force in vacuum + acceleration of gravity accelerated vertically downward In addition, a series full blade impeller water turbine and a series full blade impeller gas turbine that aim to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero-photovoltaic power generation Opposite series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + vaporization explosive force in vacuum + acceleration of gravity accelerated vertically downward In a part close to a vacuum, a long lens (2d) for heat insulation and a series full blade impeller water turbine and a series full blade impeller gas turbine that maintain sunlight in the vicinity of a right angle to increase power generation are provided in multiple stages. Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro / pneumatic solar power generation method with zero fuel cost, 0 CO2 exhaust, 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) + in vacuum Accelerate the vaporization explosive force + gravitational acceleration vertically downward, increase the width of the long lens (2d) of the split fastener (80B) and increase the amount of power generation. Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro / pneumatic solar power generation method with zero fuel cost, 0 CO2 exhaust, 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) + in vacuum Accelerate the vaporization explosive force + gravitational acceleration vertically downward, split and install a multi-long lens (2d) with a clamp (80B) to set it as a set. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro / pneumatic solar power generation method with zero fuel cost, 0 CO2 exhaust, 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and a series full blade impeller water turbine / series full blade impeller gas turbine that aims to increase the amount of power generation by selecting a long lens (2d) that is a selected production length from existing materials. Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro / pneumatic solar power generation method with zero fuel cost, 0 CO2 exhaust, 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) + in vacuum Vaporization explosion force + gravitational acceleration is further accelerated vertically downward, and a series of all blade impeller water turbines aiming at increasing concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d)・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines installed in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro / pneumatic solar power generation method with zero fuel cost, 0 CO2 exhaust, 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the long blade (2d) of heat insulation in the part close to the vacuum and sunlight are kept in the vicinity of a right angle to aim at an increase in power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) + In-line all blades aiming to increase power generation by accelerating vaporization explosive force + gravitational acceleration in a vacuum and increasing the width of the long lens (2d) for fastening the split fastener (80B) Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a series of multiple long lenses (2d) for tightening fasteners (80B) to increase power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and the total production length lens (2d) from the existing material is lengthened to increase the amount of power generation. Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward, and the series full-motion aiming to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycles of the power generation method with multiple stages of impeller water turbine and in-line full impeller impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) + Vaporization explosion force in vacuum + Gravity acceleration is accelerated vertically downward, and the entire series that aims at increasing power generation by maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to the vacuum Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) + full-motion in series that aims to increase power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the vaporization explosive force + gravitational acceleration vertically in the vacuum Combined engine of various energy conservation cycles of the power generation method with multiple stages of impeller water turbine and in-line full impeller impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) A series of series that aims to increase power generation by accelerating the vaporization explosive force + gravitational acceleration in a vacuum, vertically, dividing and providing a set of multiple long lenses (2d) for fastening (80B). Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) In-vacuum explosion force + Gravitational acceleration in a vacuum. Accelerating downward in the vertical direction, selecting a long lens (2d) from existing materials, aiming to increase power generation. Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward, and the entire series in series aims to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Series that aims to increase the amount of power generation by accelerating the vaporization explosive force + gravitational acceleration in vacuum vertically and maintaining the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Solar Heater (2) + Vaporization Explosive Power in Vacuum + Series all blade impeller water turbine / series all blades aiming to increase power generation by accelerating gravitational acceleration vertically downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) + Vaporization Explosive Power in Vacuum + Accelerating the gravitational acceleration vertically downward, dividing and providing a set of multiple long lenses (2d) with fastening tools (80B) to increase the power generation amount. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Solar Heater (2) + Vaporization Explosive Power in Vacuum + Gravity acceleration is further accelerated vertically downward, and the series production blade lens (2d) from the existing material is made long and the series all blade impeller water turbine and the series all blade impeller gas turbine are aimed at increasing power generation in multiple stages. Various energy conservation cycle coalescence engine of power generation method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) + Vaporization Explosive Power in Vacuum + Accelerating gravity acceleration vertically downward, and using a cross-section lens (2d) from the existing lens cross-section, aiming to increase the amount of power generated by concentrated sunlight into the water (52b) pipe. Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Solar Heater (2) + Vaporization Explosive Power in Vacuum + Accelerating the gravitational acceleration vertically downward, and maintaining a long lens (2d) of heat insulation and sunlight in the vicinity of a right angle near the vacuum, aiming to increase power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-wing blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles + solar heater (2) + vaporization explosive force in vacuum + A series all blade impeller water turbine / series all blade impeller that accelerates the gravitational acceleration downward and increases the width of the long lens (2d) of the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-wing blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles + solar heater (2) + vaporization explosive force in vacuum + Accelerating the gravitational acceleration vertically downward, dividing and providing a set of multiple long lenses (2d) with tightening tools (80B) to increase power generation amount Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-wing blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles + solar heater (2) + vaporization explosive force in vacuum + Electric power generation with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming to increase power generation by accelerating gravitational acceleration vertically downward and making the production length lens (2d) long from existing materials Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-wing blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles + solar heater (2) + vaporization explosive force in vacuum + A series full blade impeller water turbine / series full blade aiming at increasing concentrated power generation by accelerating gravitational acceleration vertically downward from the existing lens cross section with a selected cross section long lens (2d) into the water (52b) pipe Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-wing blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles + solar heater (2) + vaporization explosive force in vacuum + A series of all-blade impeller water turbines and series full motions that aim to increase power generation by accelerating gravitational acceleration vertically downward and maintaining heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the amount of power generation by making the production length lens (2d) longer from existing materials. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and a series of lenses aiming at increasing the amount of concentrated power generation from the existing lens cross-section to the water (52b) tube with the selected cross-section long lens (2d) Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum, aiming to increase power generation Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, increasing the width of the long lens (2d) for tightening the split fastener (80B) and increasing the amount of power generation This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Compressed heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to increase the power generation amount by selecting a long lens (2d) that is a selected production length from existing materials. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated on the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Compressed heat recovery of internal air + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, generating heat by maintaining a long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and generate power. Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Internal air is recovered by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long lenses (2d) for tightening the fastener (80B). Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Compressive heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and a series full blade impeller that aims to increase the amount of power generation by making the selected production long lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Internal air is recovered by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, keeping the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + In-vacuum series turbine blades aiming to increase the amount of power generation by accelerating vaporization explosive force + gravitational acceleration in vacuum vertically and increasing the width of the long lens (2d) of the split fastener (80B) Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + In-vacuum series blades aiming to increase power generation by accelerating vaporization explosive force + gravitational acceleration in vacuum vertically and dividing and providing multiple long lenses (2d) with fastening tools (80B) as a set Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and serial all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + In-vacuum blasting force + gravitational acceleration is accelerated vertically downward to increase the amount of power generated by selecting a long lens (2d), which is a selected production length from existing materials. Various energy conservation cycle coalescence engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + A series of all-blade impellers aiming to increase the amount of concentrated power generation from the existing lens cross-section to the water (52b) tube by accelerating the vaporization explosive force + gravitational acceleration vertically in the vacuum and selecting the long-section lens (2d) Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + A series of all blades that aim to increase power generation by accelerating vaporization explosive force + gravitational acceleration in a vacuum and maintaining a long lens (2d) with heat insulation and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum In-line full blade impeller water turbine that aims to increase power generation by increasing the length of the long lens (2d) tightening the split fastener (80B) by accelerating the vaporization explosive force + gravitational acceleration inside・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines installed in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum A series of all-blade impellers that aim to increase power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward, and dividing and providing a set of multiple long lenses (2d) with fastening tools (80B) Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum In-line full blade impeller water turbine and in-series full blade impeller gas turbine, aiming to increase power generation by accelerating the vaporization explosive force + gravitational acceleration vertically downward and selecting a long lens (2d) that is selected from existing materials Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum In-line full-wing blade bouncing water that accelerates vaporization explosion force + gravitational acceleration vertically downward, and aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross-section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum A series of all-blade impellers that aim to increase power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward and maintaining heat insulation long lens (2d) and sunlight at right angles near the vacuum Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) with heat pump (1G) to recover compression heat + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening This is a combined energy storage cycle engine with multiple stages of series full-blade bouncing water turbine and series full-blade bouncing gas turbine that aims to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) is compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into a multi-lens (2d) for fastening with a fastener (80B) Combined engine of various energy conservation cycle of power generation method with multiple stages of series full bucket blade water turbine and series full bucket flywheel gas turbine installed in sets and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation in series Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) (52b) Combined engine of various energy conservation cycle of power generation method with multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle This is a combined energy storage cycle engine with multiple stages of series full bucket blade water turbines and series full bucket gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal increase suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, split clamp (80B) tightening long lens (2d) This is a combined energy storage cycle engine with multiple stages of series turbine blade water turbine and series turbine blade gas turbines that aim to increase power generation by increasing the width of the turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, split into multiple long lenses with fastening tool (80B) Various energy storage cycle coalescence engines of the power generation method in which (2d) is provided as a set and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal increase suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and select production length lens (2d) from existing material to make power generation amount long Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, and select sunlight from the existing lens cross section with the selected cross section length lens (2d) Various energy conservation cycle coalescence engines of power generation method in which water turbine (52b) is provided in multiple stages with series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing concentrated power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, heat insulation long lens (2d) and sun Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and serial full bucket flywheel gas turbine aiming to increase power generation by maintaining light near right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for tightening split fastener (80B) ) Series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase the amount of power generation by increasing the width of the power generation method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Compression heat recovery of internal air (28a) by heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, divided into multiple lengths of fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a series of all blade impeller water turbines and series all blade impeller gas turbines are provided in multiple stages to provide a lens (2d) as a set and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Compression heat recovery of internal air (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and power is generated by selecting a selected production length lens (2d) as long Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross section length lens (2d) This is a combined energy storage cycle engine of a power generation method in which a water turbine (52b) is provided in multiple stages with a series full blade moving vehicle water turbine and a series full blade flying vehicle gas turbine aiming to increase the amount of concentrated power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) The internal air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward, and the long lens (2d) that is insulated at the part approaching the vacuum Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming to increase power generation by maintaining sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Compressive heat recovery with pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Compressive heat recovery with pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long lenses (2d) for tightening fasteners (80B). Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Compressive heat recovery with pump (1G) + Vaporization explosion force in vacuum + Gravity acceleration is accelerated vertically downward, and a series full blade impeller that aims to increase power generation by making the selected long lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Compressed heat recovery with pump (1G) + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, and sunlight is concentrated to water (52b) tube with a selected section length lens (2d) from the existing lens section Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Compressive heat recovery with pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulating long lens (2d) and sunlight are maintained at right angles near the part near the vacuum. Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening with a fastener (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the amount of power generated by using a long lens (2d) selected from existing materials. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated to the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressed heat recovery + Vaporization explosive force + Gravity acceleration in vacuum Accelerate vertically downward, and heat insulation long lens (2d) and sunlight are kept at right angles near the part where power is generated Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the length of the split fastener (80B) tightening Various energy conservation cycle coalescence engines of power generation method in which a series full bucket moving vehicle water turbine and a series full bucket flying vehicle gas turbine are provided in multiple stages to increase the width of the lens (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, and divide and tighten the clamp (80B) Various energy conservation cycle coalescence engines of power generation method in which a plurality of series full-blade bouncer water turbines and series full-blade bouncer gas turbines are provided in multiple stages to provide a plurality of long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated with a compressed water heat exchanger (2Y) and water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward to select a production long lens (2d) from existing materials A series of all-energy storage cycle coalescence engine with multiple stages of series full bucket blade water turbines and series full bucket gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the cross-sectional length lens (2d) selected from the existing lens cross section This is a combined energy storage cycle engine of a power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines aiming to increase the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heat the internal air (28a) with a compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in the vacuum vertically, and insulate the long lens ( 2d) and various energy conservation cycle coalescence engines of a power generation method in which a series of full blade impeller water turbines and series full blade impeller gas turbines aiming to increase power generation by maintaining sunlight in the vicinity of a right angle are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating the internal air (28a) with the compressed water heat exchanger (2Y) and heating the water (52b) + accelerating the vaporization explosive force + gravitational acceleration in the vacuum vertically, split fastener (80B) Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y), the water (52b) is heated + the vaporization explosive force + gravitational acceleration is further accelerated in the vertical downward direction, and divided into the fastening tools ( 80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by providing multiple tightened long lenses (2d) as a set . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Internal air (28a) is compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected from existing materials Various energy storage cycle coalescence engines of power generation method in which (2d) is long and a series full blade impeller water turbine / series full blade impeller gas turbine that aims at increasing power generation is provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a section length from the existing lens section Various energy conservation cycle coalescence engine of power generation method in which a series of all blade impeller water turbine and series all blade impeller gas turbines aiming to increase the concentrated power generation amount in the water (52b) pipe with sunlight through the lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + vaporize the explosive force in the vacuum + accelerate the gravitational acceleration vertically downward to insulate the part close to the vacuum Long lens (2d) and solar power in the vicinity of a right angle, aiming to increase the amount of power generation. . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically, and split the fastener (80B ) Various energy conservation cycle coalescence engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y), the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and divided and tightened. (80B) Combining various energy conservation cycles of a power generation method in which a series of all-blade propulsion water turbines and series all-blade propulsion gas turbines are provided in multiple stages to provide a plurality of tightened long lenses (2d) as a set organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected production length from existing materials Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing power generation with long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and selected cross section from existing lens cross section Combined engine with various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming at increasing concentrated power generation amount with long lens (2d) in water (52b) pipe . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is accelerated vertically downward, and the part close to the vacuum Combined various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to divide the clamp (80B) and tighten the long lens (2d) This is a combined energy storage cycle engine with multiple stages of series turbine blade water turbine and series turbine blade gas turbines that aim to increase power generation by increasing the width of the turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses for fastening the fastener (80B) Various energy storage cycle coalescence engines of the power generation method in which (2d) is provided as a set and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + Accelerate the vaporization explosive force + gravitational acceleration vertically in the vertical direction, select from existing materials Select the production length lens (2d) as long and generate electricity Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporization explosive force + gravity acceleration in vacuum to accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which water turbine (52b) is provided in multiple stages with series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing concentrated power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporization explosive force + gravity acceleration in vacuum, accelerate vertically downward, heat insulation long lens (2d) and sun Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and serial full bucket flywheel gas turbine aiming to increase power generation by maintaining light near right angle. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) The water (52b) is heated by the compressed water heat exchanger (2Y) + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the long lens (2d) of the divided fastener (80B) is tightened. Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming to increase power generation by increasing the width. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) The water (52b) is heated with a compressed water heat exchanger (2Y) + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward and divided into multiple long lenses (80B) and tightened with a clamp (80B) 2d) is a set of various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the series full blade impeller gas turbine that aim at increasing power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) Heat the water (52b) with the compressed water heat exchanger (2Y) + add the vaporization explosive force in the vacuum + accelerate the gravitational acceleration vertically downward, and water the sunlight from the existing lens section with the selected section length lens (2d) (52b) A combined energy storage cycle engine of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine aiming at increasing the amount of concentrated power generation in a pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) The water (52b) is heated with a compressed water heat exchanger (2Y) + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and the heat insulating long lens (2d) and sunlight are brought close to the vacuum This is a combined engine with various energy conservation cycles in a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are installed in multiple stages to maintain power in the vicinity of a right angle. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and long lens (2d) for split clamp (80B) tightening ) Series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase the amount of power generation by increasing the width of the power generation method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + acceleration of gravitational acceleration further vertically downward, divided into multiple lengths of fastening tool (80B) Various energy conservation cycle coalescence engines of power generation method in which a series of all blade impeller water turbines and series all blade impeller gas turbines are provided in multiple stages to provide a lens (2d) as a set and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + Gravitational acceleration is accelerated in the vertical downward direction in vacuum, and power generation is performed by selecting a selected long lens (2d) from an existing material. Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is accelerated vertically downward, and sunlight is selected from the existing lens cross section with a selected cross-section long lens (2d) This is a combined energy storage cycle engine of a power generation method in which a water turbine (52b) is provided in multiple stages with a series full blade moving vehicle water turbine and a series full blade flying vehicle gas turbine aiming to increase the amount of concentrated power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and heat insulating long lens (2d) is close to the vacuum. Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming to increase power generation by maintaining sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and split fastener (80B) is tightened Various energy conservation cycle coalescing engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the long lens (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided and clamped (80B) Various energy conservation cycle coalescence engines of power generation method in which a plurality of series full blade impeller water turbines and series full bucket impeller water turbines and gas turbines are provided in multiple stages with a plurality of attached long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to select from existing materials Long lens (2d) This is a combined energy storage cycle engine with a series of all-blade bouncing water turbine and series all-blade bouncing gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to select a long lens (2d) ), A series of all blade impeller water turbines and series all blade impeller gas turbines that aim to increase the amount of concentrated power generation in the water (52b) pipe in various power storage cycle coalescence engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and a long lens for heat insulation at the part approaching the vacuum (2d) and various energy conservation cycle coalescence engines of the power generation method in which the series all blade impeller water turbine and the series all blade impeller gas turbine are arranged in multiple stages to maintain the sunlight at right angles and aim to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating of water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + acceleration of gravitational acceleration vertically downward, split fastener (80B) tightening Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + acceleration of gravitational acceleration is added vertically downward and divided into fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of tightened long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to select from existing materials long lens (2d ) Is an energy storage cycle coalescing engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, select cross-sectional length lens ( In 2d), various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine / series full blade impeller gas turbine that aims to increase the concentrated power generation amount in the water (52b) pipe in 2d) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and insulation is long at the part approaching vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by maintaining the lens (2d) and sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening This is a combined energy conservation cycle engine with multiple stages of series turbine blade water turbines and series turbine blade gas turbines that are increasing in number and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with a fastener (80B) This is a combined energy storage cycle engine with multiple stages of series full bucket moving vehicle water turbine and series full bucket flying vehicle gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming to increase power generation by making the selected long lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Water (52b) is heated with compressed air calorie (28b) + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward, and sunlight is converted into water (52b) from the existing lens cross section with a selected cross section long lens (2d). ) Combined engine of various energy conservation cycle of power generation method with multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Vaporization explosive force in gravity + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight at right angle Combined engine with various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine maintained in the vicinity aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Heat water (52b) with air heat (28b) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) This is a combined energy storage cycle engine with multiple stages of series full-blade bouncing water turbine and series full-blade bouncing gas turbine that aims to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Heat the water (52b) with the amount of air heat (28b) + vaporize explosive force in vacuum + accelerate the gravitational acceleration vertically downward, and divide the multi-long lens (2d) tightened with the fastener (80B) Combined engine of various energy conservation cycle of power generation method with multiple stages of series full bucket blade water turbine and series full bucket flywheel gas turbine installed in sets and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Series that aims to increase power generation by heating the water (52b) with the amount of air heat (28b) + accelerating the vaporization explosive force + gravitational acceleration in vacuum vertically downward, and making the selected long lens (2d) long from the existing material Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Water (52b) is heated with air calorie (28b) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and sunlight is water (52b) from the existing lens cross section with a selected cross-section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Heat water (52b) with air calorie (28b) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle at the part close to vacuum This is a combined energy storage cycle engine with multiple stages of series full bucket moving water turbines and series full bucket running turbine gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravity acceleration further downward vertically, long lens (80B) tightening split clamp (80B) Various energy conservation cycle coalescence engines of power generation method in which a series full bucket moving vehicle water turbine and a series full bucket flying vehicle gas turbine are provided in multiple stages to increase the width of 2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration further downward vertically, divided into multiple fasteners (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine that aim at increasing power generation by providing a long lens (2d) as a set. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection and combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to make the selected production length lens (2d) long Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Water (52b) is heated by compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration is further accelerated vertically downward in the vacuum, and the sun is selected from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full bucket flywheel gas turbine aiming at increasing concentrated power generation amount in light (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to insulate long lens (2d) near the vacuum And energy storage cycle coalescence engine of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine installed in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split fastener (80B) tightened Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further vertically downward, split and tightening tool (80B) Various energy conservation cycle coalescence engines of power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of tightened long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heat water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to select from existing materials long lens (2d) ) Is an energy storage cycle coalescing engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward to select a cross-sectional length lens ( In 2d), various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine / series full blade impeller gas turbine that aims to increase the concentrated power generation amount in the water (52b) pipe in 2d) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration vertically downward, long heat insulation at the part approaching the vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by maintaining the lens (2d) and sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating of water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, split fastener (80B) tightened Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the attached long lens (2d) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Water (52b) is heated by compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration is further accelerated vertically downward in the vacuum and divided into fasteners (80B) ) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller water turbine aiming to increase power generation by providing multiple tightened long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and selected from existing materials Various energy conservation cycle coalescence engines of power generation method in which 2d) is long and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, select cross-section long lens from existing lens cross-section (2d) Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase the concentrated power generation amount in the water (52b) pipe in (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat insulation is applied at the part approaching the vacuum Various energy conservation cycle coalescence engine of power generation method with multi-stage series full blade impeller water turbine / series full blade impeller water turbine aiming to increase power generation by maintaining long lens (2d) and sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( 28b) heating water (52b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) This is a combined energy storage cycle engine with multiple stages of series full bucket blade water turbines and series full bucket gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( 28b) water (52b) is heated + fuel is injected and burned + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening (80B) ) In a set of various energy storage cycle coalescence engines with a series of full bucket moving water turbines and series full bucket flying cars gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( 28b) water (52b) is heated + fuel injected and combusted + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward to increase the amount of power generation by making the selected long lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( Water (52b) is heated in 28b) + fuel injection combustion + vaporization explosive force + gravity acceleration in vacuum is accelerated vertically downward, and sunlight is converted to water (2d) from the existing lens cross section with the selected cross section long lens (2d). 52b) A combined energy storage cycle engine of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine aiming at increasing the amount of concentrated power generation in a pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( 28b) heating water (52b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sunlight in the part close to the vacuum Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine maintained in the vicinity of right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) To heat water (52b) + fuel injection and combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) A series of energy conservation cycle coalescing engines with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) Heating water (52b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) This is a combined energy storage cycle engine with multiple stages of series full bucket moving vehicle water turbine and series full bucket flying vehicle gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) Heating water (52b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) To heat water (52b) + fuel injection and combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and sunlight is converted to water (52b) from the existing lens cross section by a selected cross section long lens (2d) ) Combined engine of various energy conservation cycle of power generation method with multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) Heating water (52b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are perpendicular Combined engine with various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine maintained in the vicinity aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Increase in force maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase power generation in series Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Increase power to maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of a long lens (2d) for tightening the fastener (80B) to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Maximum power increase + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation. Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Increase the force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Increased power maximum + Vaporization explosion force + Gravitational acceleration in vacuum Accelerates vertically downward, maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to the vacuum to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increase vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increase the vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening the fastener (80B) Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increase the vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and a series full blade impeller that aims to increase the amount of power generation by making the long lens (2d) selected from existing materials longer Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increase vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated to the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increase vaporization explosive force to the maximum + Vapor explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, keeping the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase vaporization explosive power to the maximum in + Add vaporization explosive force in vacuum + Gravitational acceleration to the vertical downward direction to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase vaporization explosive force to the maximum in + Add vaporization explosive force in vacuum + Gravitational acceleration to additional vertical acceleration, split and provide multiple long lens (2d) with tightening tool (80B) This is a combined energy storage cycle engine with a series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase the vaporization explosive force to the maximum + Add the vaporization explosive force in vacuum + Gravitational acceleration to the vertically downward direction, and select the long lens (2d) from the existing material to increase the power generation amount. Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase vaporization explosive force to the maximum in + Add vapor explosive force in vacuum + Gravitational acceleration to accelerate vertically downward, and concentrate sunlight on water (52b) tube with selected cross-sectional length lens (2d) from existing lens cross section Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase vaporization explosive force to the maximum in + Accelerate vaporization explosive force + gravitational acceleration in vacuum vertically and maintain heat insulating long lens (2d) and sunlight in the vicinity of right angle near the vacuum. This is a combined energy storage cycle engine with a series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Various explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to increase the width of the long lens (2d) tightened by the split fastener (80B) and increase the power generation amount. Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for tightening fasteners (80B) to increase power generation in series Combined engine of various energy conservation cycles of the power generation method with multiple stages of impeller water turbine and in-line full impeller impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward, and the total production blade lens (2d) is selected from existing materials, aiming to increase power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward, and all the blades in series aim to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and in the part close to the vacuum, heat insulation long lens (2d) and sunlight are kept near right angle, aiming to increase power generation. Combined engine of various energy conservation cycles of the power generation method with multiple stages of impeller water turbine and in-line full impeller impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + In-vacuum series turbine blades aiming to increase the amount of power generation by accelerating vaporization explosive force + gravitational acceleration in vacuum vertically and increasing the width of the long lens (2d) of the split fastener (80B) Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + In-vacuum series blades aiming to increase power generation by accelerating vaporization explosive force + gravitational acceleration in vacuum vertically and dividing and providing multiple long lenses (2d) with fastening tools (80B) as a set Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + In-vacuum explosion force + gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation. Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + A series of all-blade impellers aiming to increase the amount of concentrated power generation from the existing lens cross-section to the water (52b) tube by accelerating the vaporization explosive force + gravitational acceleration vertically in a vacuum and selecting a long lens (2d) from the existing lens cross-section Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + A series of all blades that aim to increase power generation by accelerating vaporization explosive force + gravitational acceleration in a vacuum and maintaining a long lens (2d) with heat insulation and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerating and increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation, the series full blade impeller water turbine and the serial full blade impeller gas turbine are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Multi-stage series full blade impeller water turbine / series full blade impeller gas turbine that aims to increase power generation by accelerating, splitting and providing multiple long lenses (2d) for fastening fasteners (80B) as a set Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Combined with various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by accelerating and selecting long production length lens (2d) from existing materials organ. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerate and install a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines in multiple stages aiming to increase concentrated power generation from the existing lens cross-section to the water (52b) pipe with sunlight with a selected cross-section long lens (2d) Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerate and maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase the power generation amount. Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerating and increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation, the series full blade impeller water turbine and the serial full blade impeller gas turbine are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Multi-stage series full blade impeller water turbine / series full blade impeller gas turbine that aims to increase power generation by accelerating, splitting and providing multiple long lenses (2d) for fastening fasteners (80B) as a set Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Combined with various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by accelerating and selecting long production length lens (2d) from existing materials organ. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerate and install a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines in multiple stages aiming to increase concentrated power generation from the existing lens cross-section to the water (52b) pipe with sunlight with a selected cross-section long lens (2d) Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerate and maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase the power generation amount. Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward Accelerating and increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation, the series all blade impeller water turbine and the series all blade impeller gas turbine are provided in multiple stages. Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward Multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing power generation by providing multiple long lenses (2d) with clamps (80B) tightened as a set. Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward Accelerating the production process, the production length lens (2d) from the existing material is made long, and various energy conservation cycles of the power generation method in which the series all blade impeller water turbine and the series all blade impeller gas turbine are provided in multiple stages aiming to increase the power generation amount. Combined organization. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward Accelerate to the existing lens cross-section, and select a long section lens (2d) to direct sunlight into the water (52b) tube. Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward Multistage stages of series all blade impeller water turbines and series all blade impeller gas turbines that aim to increase power generation by maintaining heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + A series all blade impeller water turbine / series all blade impeller that accelerates the gravitational acceleration downward and increases the width of the long lens (2d) of the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Series + all blades aiming at increased power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the recovery + vaporization explosion force + gravity acceleration in vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) heats water (52b) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Fuel injection and combustion + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward, increasing the width of the long lens (2d) for tightening the split fastener (80B) and increasing the amount of power generation This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + Accelerating the gravitational acceleration vertically downward, dividing and providing a set of multiple long lenses (2d) with tightening tools (80B) to increase power generation amount Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Recovery + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and divided in series to provide a set of multiple long lenses (2d) for fastening tools (80B) to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple sets of a long lens (2d) for fastening a fastener (80B) This is a combined energy storage cycle engine with a series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Heating water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, divided into multiple long lenses (2d) for fastening fasteners (80B), and a set of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + Electric power generation with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming to increase power generation by accelerating gravitational acceleration vertically downward and making the production length lens (2d) long from existing materials Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Recovery + Vaporization explosive force in vacuum + Gravitational acceleration Accelerates vertically downward, select existing long-length lens (2d) from the existing material, aiming to increase power generation amount Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) Heating water (52b) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to increase the power generation amount by increasing the length of the selected production length lens (2d) from existing materials. Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Water turbine (52b) is a series of all-bladed impeller water turbines that aim to increase power generation by increasing the length of the selected production long lens (2d) from existing materials by accelerating the vaporization explosive force + gravitational acceleration in vacuum + adding vacuum vertically・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines installed in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Injecting and burning fuel + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to increase the amount of power generation by selecting a long lens (2d) that is a selected production length from existing materials. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + A series full blade impeller water turbine / series full blade aiming at increasing concentrated power generation by accelerating gravitational acceleration vertically downward from the existing lens cross section with a selected cross section long lens (2d) into the water (52b) pipe Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Recovery + Vacuum vaporization force + Gravitational acceleration in the vertical direction Accelerating vertically downward, series full-motion aiming to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycles of the power generation method with multiple stages of impeller water turbine and in-line full impeller impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is increased to the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d). This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated to the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + A series of all-blade impeller water turbines and series full motions that aim to increase power generation by accelerating gravitational acceleration vertically downward and maintaining heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the whole series in which heat insulation long lens (2d) and sunlight are kept near right angle near the vacuum to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to keep the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. This is a combined energy storage cycle engine with a series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Heating water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of the vacuum. Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the part near the vacuum for power generation Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + Combined engine with various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming at the same maximum amount of water generation by accelerating gravitational acceleration vertically downward. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Recovery + Vacuum vaporization force + Gravity acceleration is accelerated vertically downward, and a series of full blade impeller water turbines and serial full blade impeller gas turbines aiming at the same maximum amount of power generation are provided in multiple stages. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) Heating water (52b) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to achieve the same maximum amount of water generated. Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the amount of water generated in series. Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Injecting and burning fuel + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward to achieve the same maximum amount of water generation. Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity A series full blade impeller water turbine / series full blade impeller gas aiming to increase the amount of power generation by accelerating the acceleration vertically downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity A series full blade impeller water turbine / series full blade aiming at increasing power generation by accelerating the acceleration further vertically and dividing and providing a set of multiple long lenses (2d) with fastening tools (80B). Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity A power generation method with multiple stages of series full blade impeller water turbines and serial full blade impeller gas turbines aiming to increase power generation by accelerating acceleration vertically downward and selecting a long lens (2d) as a selected production length lens from existing materials Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity A series full blade impeller water turbine / series full blade impeller that aims to increase the amount of power generation by accelerating the acceleration vertically downward and selecting sunlight from the existing lens cross section to the water (52b) tube with a long lens (2d). Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity Accelerating the acceleration vertically further, maintaining the long lens (2d) of heat insulation in the part close to the vacuum and sunlight in the vicinity of a right angle, aiming to increase the amount of power generation. Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + In-line all blades aiming to increase power generation by accelerating vaporization explosive force + gravitational acceleration in a vacuum and increasing the width of the long lens (2d) for fastening the split fastener (80B) Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a series of multiple long lenses (2d) for tightening fasteners (80B) to increase power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and the total production length lens (2d) from the existing material is lengthened to increase the amount of power generation. Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward, and the series full-motion aiming to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycles of the power generation method with multiple stages of impeller water turbine and in-line full impeller impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + Vaporization explosion force in vacuum + Gravity acceleration is accelerated vertically downward, and the entire series that aims at increasing power generation by maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to the vacuum Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide multiple long lenses (2d) for tightening fasteners (80B) to increase power generation This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and a series of all blade impeller water turbines aiming to increase power generation by selecting a long production lens (2d) from existing materials. Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the concentrated power generation amount is increased from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to vacuum to increase power generation This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Light heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Light turbine (2) + in-vacuum explosive force in vacuum + gravity acceleration is accelerated vertically downward to increase the power generation amount by selecting a long production lens (2d) from existing materials.・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines installed in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is increased from the existing lens cross section to the water (52b) tube with the selected cross-section long lens (2d). This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum. Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Accelerate the vaporization explosive force + gravitational acceleration vertically downward, increase the width of the long lens (2d) of the split fastener (80B) and increase the amount of power generation. Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Accelerate the vaporization explosive force + gravitational acceleration vertically downward, split and install a multi-long lens (2d) with a clamp (80B) to set it as a set. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and a series full blade impeller water turbine / series full blade impeller gas turbine that aims to increase the amount of power generation by selecting a long lens (2d) that is a selected production length from existing materials. Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Vaporization explosion force + gravitational acceleration is further accelerated vertically downward, and a series of all blade impeller water turbines aiming at increasing concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d)・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines installed in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the long blade (2d) of heat insulation in the part close to the vacuum and sunlight are kept in the vicinity of a right angle to aim at an increase in power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Series (2) + series of vaporization explosive force in vacuum + acceleration of gravitational acceleration further vertically downward to increase the width of the long lens (2d) for fastening the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Series (2) + in-vacuum vaporization force + gravity acceleration is accelerated in the vertical downward direction, and the total production blade lens (2d) is selected from existing materials, aiming to increase the amount of power generation. Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat generation is increased by maintaining a long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide multiple long lenses (2d) for tightening fasteners (80B) to increase power generation This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and a series of all blade impeller water turbines aiming to increase power generation by selecting a long production lens (2d) from existing materials. Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the concentrated power generation amount is increased from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to vacuum to increase power generation This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum Acceleration of vaporization + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum A series of all-blade propulsion turbine water turbines that accelerate the vaporization explosive force + gravitational acceleration vertically downward, divide and provide a set of multiple long lenses (2d) with fastening tools (80B) to increase power generation・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and the series production blade lens (2d) is made long from existing materials to increase power generation amount. Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and a series of all blade impeller water turbines aiming to increase concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum Acceleration of vaporization + acceleration of gravity is accelerated vertically downward, and a long-insulated long lens (2d) and sunlight are kept in the vicinity of a right angle in a part close to a vacuum, aiming to increase power generation.・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines installed in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum A series of all-blade propulsion turbine water turbines that aim to increase the amount of power generation by accelerating the explosive force + gravitational acceleration vertically downward and increasing the width of the long lens (2d) of the split fastener (80B). Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum A series of all-blade bouncing water turbines that aim to increase power generation by accelerating explosive force + gravitational acceleration vertically downward, and dividing and providing a set of multiple long lenses (2d) with fastening tools (80B) Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum Addition of explosive force + gravitational acceleration vertically downward, select from existing materials, make the production length lens (2d) long and aim to increase the power generation amount. Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum A series full blade impeller water turbine, in series, which accelerates the explosion force + gravitational acceleration vertically downward and aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum A series of all-wheel impeller water turbines that aim to increase the amount of power generation by accelerating explosive force + gravitational acceleration vertically downward and maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of long lenses (2d) for fastening fasteners (80B) and power generation amount Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Recovering internal air with compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and a series of all blade impeller water turbines aiming to increase power generation by selecting a long production lens (2d) from existing materials・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines installed in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to vacuum. Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) The internal air is recovered by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward and divided into a set of multiple long lenses (2d) for tightening fasteners (80B) Various energy conservation cycle coalescing engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine installed to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Compressive heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase power generation by increasing the length of the selected production length lens (2d) from existing materials Combined engine of various energy conservation cycles of the power generation method with multiple stages of impeller water turbine and in-line full impeller impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is converted into a water (52b) tube from the existing lens cross section with a selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of series full bucket blade water turbine and series full bucket flywheel gas turbine aiming to increase concentrated power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle near the vacuum This is a combined energy storage cycle engine with multiple stages of series full-blade bouncing water turbine and series full-blade bouncing gas turbine that aims to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) This is a combined energy storage cycle engine with a series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided and set with multiple length lens (2d) with clamp (80B) This is a combined energy storage cycle engine with a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines, which are installed in multiple stages, in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the power generation amount by increasing the selected production length lens (2d) from existing materials Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with a selected cross section long lens (2d) to water (52b) tube This is a combined energy storage cycle engine with a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Compressed heat recovery of internal air + Vaporization explosion force in vacuum + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight near right angle This is a combined energy storage cycle engine with a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines that maintain and aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase power generation in series Combined engine of various energy conservation cycles of the power generation method with multiple stages of impeller water turbine and in-line full impeller impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and a series of multiple long lenses (2d) tightened with fasteners (80B) is provided to increase power generation Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Heat recovery + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation. Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the entire series in series aims to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the heat insulating long lens (2d) and sunlight are kept at right angles near the vacuum to increase power generation Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Series + all blades aiming at increased power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the recovery + vaporization explosion force + gravity acceleration in vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Recovery + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and divided in series to provide a set of multiple long lenses (2d) for fastening tools (80B) to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Recovery + Vaporization explosive force in vacuum + Gravitational acceleration Accelerates vertically downward, select existing long-length lens (2d) from the existing material, aiming to increase power generation amount Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Recovery + Vacuum vaporization force + Gravitational acceleration in the vertical direction Accelerating vertically downward, series full-motion aiming to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycles of the power generation method with multiple stages of impeller water turbine and in-line full impeller impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the whole series in which heat insulation long lens (2d) and sunlight are kept near right angle near the vacuum to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compress internal heat (28a) with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is accelerated further vertically downward, and the long lens (2d) of split clamp (80B) tightens Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming to increase power generation by increasing the width. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compress internal heat (28a) with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (80B) tightened ( 2d) is a set of various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the series full blade impeller gas turbine that aim at increasing power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery of internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compress internal heat (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is watered from the existing lens cross section with the selected cross section long lens (2d) (52b) A combined energy storage cycle engine of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine aiming at increasing the amount of concentrated power generation in a pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compress internal heat (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, heat insulating long lens (2d) and sunlight This is a combined engine with various energy conservation cycles in a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are installed in multiple stages to maintain power in the vicinity of a right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + Long lens for fastening split fastener (80B) by accelerating vaporization explosive force + gravitational acceleration vertically downward in vacuum (2d) A combined energy storage cycle engine of a power generation method in which a series full bucket moving vehicle water turbine and a series full bucket moving vehicle gas turbine are provided in multiple stages to increase the width of power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + compressive heat recovery + vaporization explosive force + gravity acceleration in vacuum vertically downward, and divide and tighten fastener (80B) Various energy conservation cycle coalescence engines of power generation method in which a multi-lens series (2d) is provided as a set, and a series full blade impeller water turbine and a series full blade impeller gas turbine that aim at increasing power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum vertically in the vacuum to select and manufacture a long lens (2d) from existing materials As a power generation method, it combines various energy storage cycle engines with a series of all-blade bouncer water turbines and a series all-blade bouncer gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + vaporization explosive force + gravitational acceleration in vacuum in the vertical direction, and select cross-section long lens (2d) from existing lens cross section Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller gas turbine aiming at increasing concentrated power generation amount in sunlight (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + heat generated by compression + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, heat insulating long lens (2d ) And a series of full bucket moving water turbines and series full bucket moving cars gas turbines that aim to increase power generation by maintaining sunlight in the vicinity of a right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the length of split fastener (80B) tightening Various energy conservation cycle coalescence engines of power generation method in which a series full bucket moving vehicle water turbine and a series full bucket flying vehicle gas turbine are provided in multiple stages to increase the width of the lens (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided and clamped (80B) Various energy conservation cycle coalescence engines of power generation method in which a plurality of series full-blade bouncer water turbines and series full-blade bouncer gas turbines are provided in multiple stages to provide a plurality of long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Internal air (28a) is compressed with heat pump (1G) + Explosive force of vaporization + Gravitational acceleration in vacuum is further accelerated vertically downward, and selected production length lens (2d) from existing materials A series of all-energy storage cycle coalescence engine with multiple stages of series full bucket blade water turbines and series full bucket gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to select a cross-section long lens (2d) from the existing lens cross section This is a combined energy storage cycle engine of a power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines aiming to increase the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Recover internal air (28a) with heat pump (1G) + Compressive heat recovery + Vaporization explosive force + Gravity acceleration in vacuum vertically and heat insulation long lens ( 2d) and various energy conservation cycle coalescence engines of a power generation method in which a series of full blade impeller water turbines and series full blade impeller gas turbines aiming to increase power generation by maintaining sunlight in the vicinity of a right angle are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) With a heat pump (1G) to recover the compression heat + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) This is a combined energy storage cycle engine with a series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) With a heat pump (1G) + evacuated explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided to set a multi-lens (2d) with a clamp (80B) This is a combined energy storage cycle engine with a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines, which are installed in multiple stages, in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) With a heat pump (1G) + Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the amount of power generation by selecting a long lens (2d) to be selected from existing materials Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) With heat pump (1G) + compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, sunlight from the existing lens cross section with a selected cross section long lens (2d) water (52b) tube This is a combined energy storage cycle engine with a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) With a heat pump (1G) + Compressive heat recovery + Vaporization explosive force + Gravity acceleration in the vertical direction Accelerate vertically downward, heat insulation long lens (2d) and sunlight near right angle This is a combined energy storage cycle engine with a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines that maintain and aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) The heat pump (1G) recovers compression heat + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening with fastener (80B) Various energy conservation cycle coalescing engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine installed to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to increase the amount of power generation by increasing the selected production length lens (2d) from existing materials Combined engine of various energy conservation cycles of the power generation method with multiple stages of impeller water turbine and in-line full impeller impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is converted into a water (52b) tube from the existing lens cross section with a selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of series full bucket blade water turbine and series full bucket flywheel gas turbine aiming to increase concentrated power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerate vertically downward to maintain heat insulation long lens (2d) and sunlight near right angle This is a combined energy storage cycle engine with multiple stages of series full-blade bouncing water turbine and series full-blade bouncing gas turbine that aims to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically, and tighten the split fastener (80B) Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the attached long lens (2d) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and divided into fasteners (80B). ) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller water turbine aiming to increase power generation by providing multiple tightened long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + water (52b) + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, select from existing materials Various energy conservation cycle coalescence engines of power generation method in which 2d) is long and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is accelerated vertically downward, and the selected cross section length lens is selected from the existing lens cross section. (2d) Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase the concentrated power generation amount in the water (52b) pipe in (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + vaporize the explosive force in gravity + accelerate the gravitational acceleration vertically downward. Various energy conservation cycle coalescence engine of power generation method with multi-stage series full blade impeller water turbine / series full blade impeller water turbine aiming to increase power generation by maintaining long lens (2d) and sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Combining various energy conservation cycles in a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + acceleration of gravity is further accelerated vertically downward and divided and tightened Various energy conservation of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by providing multiple long lens (2d) tightening fixture (80B) as a set Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Internal air (28a) is compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward and selected from existing materials Various energy conservation cycle coalescence engines of power generation method in which a production full-length lens (2d) is made long and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + heat the water (52b) + vaporize explosive force in vacuum + accelerate the gravitational acceleration vertically downward from the cross section of the existing lens Various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight in the selected section long lens (2d) Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) The internal air (28a) was heated with the compressed water heat exchanger (2Y) and the water (52b) was heated + vaporized explosive force in the vacuum + gravitational acceleration was accelerated vertically downward to bring it closer to the vacuum Energy conservation of power generation method with multiple stages of series all-blade bouncer water turbine and series all-blade bouncer gas turbines that aim to increase power generation by maintaining long-insulation lens (2d) and sunlight near right angle Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards, split tightening Various energy conservation cycles of a power generation method in which a series all-blade bouncer water turbine and a series all-blade bouncer gas turbine are provided in multiple stages to increase the power generation amount by increasing the width of the long lens (2d) tightening the tool (80B) Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration is further accelerated vertically downward and divided. Various energy of the power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of long-length lenses (2d) for tightening the fastener (80B) and aim to increase power generation. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, cross-section of existing lens Energy saving of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller gas turbine aiming at increasing concentrated power generation amount in the water (52b) pipe with sunlight selected by long lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heat internal air (28a) with compressed water heat exchanger (2Y) + Heat water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to bring it closer to vacuum Insulated long lens (2d) and solar energy in the vicinity of a right angle, and a series of all blade impeller water turbines and series all blade impeller gas turbines that aim to increase the amount of power generation. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heating the air (28a) with the compressed water heat exchanger (2Y) + heating the water (52b) + accelerating the vaporization explosive force + gravitational acceleration vertically downward, and a long lens for tightening the split fastener (80B) (2d) A combined energy storage cycle engine of a power generation method in which a series full bucket moving vehicle water turbine and a series full bucket moving vehicle gas turbine are provided in multiple stages to increase the width of power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, and divide and tighten the fastener (80B) Various energy conservation cycle coalescence engines of power generation method in which a multi-lens series (2d) is provided as a set, and a series full blade impeller water turbine and a series full blade impeller gas turbine that aim at increasing power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the air (28a) with the compressed water heat exchanger (2Y) + heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, select the existing material from the long lens (2d) As a power generation method, it combines various energy storage cycle engines with a series of all-blade bouncer water turbines and a series all-blade bouncer gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the air (28a) with the compressed water heat exchanger (2Y) + heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, and select the cross-section length lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller gas turbine aiming at increasing concentrated power generation amount in sunlight (52b) pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the air (28a) with the compressed water heat exchanger (2Y) + heat the water (52b) + vaporize explosive force + gravitational acceleration in the vacuum vertically, and insulate the long lens (2d) near the vacuum ) And a series of full bucket moving water turbines and series full bucket moving cars gas turbines that aim to increase power generation by maintaining sunlight in the vicinity of a right angle. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) Compressed water heat exchanger (2Y) heats water (52b) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, and long lens (80B) tightening split clamp (80B) Various energy conservation cycle coalescence engines of power generation method in which a series full bucket moving vehicle water turbine and a series full bucket flying vehicle gas turbine are provided in multiple stages to increase the width of 2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) is compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, divided into multiple fasteners (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine that aim at increasing power generation by providing a long lens (2d) as a set. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) Compressed water heat exchanger (2Y) heats water (52b) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to make the selected production length lens (2d) long Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) is compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward, and the selected cross section long lens (2d) is used for the sun. Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full bucket flywheel gas turbine aiming at increasing concentrated power generation amount in light (52b) pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) Compressed water heat exchanger (2Y) heats water (52b) + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward to insulate long lens (2d) near the vacuum And energy storage cycle coalescence engine of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine installed in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward, and length of split fastener (80B) tightening Various energy conservation cycle coalescence engines of power generation method in which a series full bucket moving vehicle water turbine and a series full bucket flying vehicle gas turbine are provided in multiple stages to increase the width of the lens (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided and clamped (80B) Various energy conservation cycle coalescence engines of power generation method in which a plurality of series full-blade bouncer water turbines and series full-blade bouncer gas turbines are provided in multiple stages to provide a plurality of long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to select a manufacturing long lens (2d) from existing materials A series of all-energy storage cycle coalescence engine with multiple stages of series full bucket blade water turbines and series full bucket gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Water (52b) is heated by compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward to select a cross-section long lens (2d) from the existing lens cross section This is a combined energy storage cycle engine of a power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines aiming to increase the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in gravity + gravitational acceleration is accelerated vertically downward, and heat insulating long lens ( 2d) and various energy conservation cycle coalescence engines of a power generation method in which a series of full blade impeller water turbines and series full blade impeller gas turbines aiming to increase power generation by maintaining sunlight in the vicinity of a right angle are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Unit (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into fasteners ( 80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by providing multiple tightened long lenses (2d) as a set . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select from existing materials Various energy storage cycle coalescence engines of power generation method in which (2d) is long and a series full blade impeller water turbine / series full blade impeller gas turbine that aims at increasing power generation is provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + additional acceleration of gravity acceleration downward, select cross section length from existing lens cross section Various energy conservation cycle coalescence engine of power generation method in which a series of all blade impeller water turbine and series all blade impeller gas turbines aiming to increase the concentrated power generation amount in the water (52b) pipe with sunlight through the lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward to insulate the part close to vacuum Long lens (2d) and solar power in the vicinity of a right angle, aiming to increase the amount of power generation. . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, split fastener (80B ) Various energy conservation cycle coalescence engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Accelerating gravitational acceleration vertically downward, split and tightening tool (80B) Combining various energy conservation cycles of a power generation method in which a series of all-blade propulsion water turbines and series all-blade propulsion gas turbines are provided in multiple stages to provide a plurality of tightened long lenses (2d) as a set organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Additional vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected production length from existing materials Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing power generation with long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected cross section from existing lens cross section Combined engine with various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming at increasing concentrated power generation amount with long lens (2d) in water (52b) pipe . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, at the part close to vacuum Combined various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heating water (52b) with compressed air calorie (28b) of air calorie + vaporizing explosive force in vacuum + acceleration of gravitational acceleration vertically downward, long lens (2d) for tightening split fastener (80B) This is a combined energy storage cycle engine with multiple stages of series turbine blade water turbine and series turbine blade gas turbines that aim to increase power generation by increasing the width of the turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heating water (52b) with compressed air calorie (28b) of air heat + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward and divided into multiple long lenses for fastening (80B) Various energy storage cycle coalescence engines of the power generation method in which (2d) is provided as a set and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat of water (52b) with compressed air calorie (28b) of air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and selected from existing materials Select production length lens (2d) as long and generate power Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the water (52b) with the compressed air calorie (28b) of the air calorie + Add vaporization explosive force in the vacuum + Accelerate the gravitational acceleration vertically downward, and select sunlight from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which water turbine (52b) is provided in multiple stages with series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing concentrated power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heating water (52b) with compressed air calorie (28b) of air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sun Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and serial full bucket flywheel gas turbine aiming to increase power generation by maintaining light near right angle. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heat the water (52b) with the amount of heat of compressed air (28b) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward to the long lens (2d) of the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming to increase power generation by increasing the width. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heating water (52b) with calorie compressed air calorie (28b) + Vaporization explosive force + Gravity acceleration in vacuum is further accelerated vertically downward and divided into multiple long lenses (80B) and tightened with a clamp (80B) 2d) is a set of various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the series full blade impeller gas turbine that aim at increasing power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heat of water (52b) with compressed air calorie (28b) of heat + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heat water (52b) with compressed air calorie (28b) of heat + Vaporization explosive force + gravity acceleration in vacuum Accelerate vertically downward, and water from the existing lens cross section with a selected cross section length lens (2d) (52b) A combined energy storage cycle engine of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine aiming at increasing the amount of concentrated power generation in a pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heating water (52b) with compressed air calorie (28b) of heat + Evaporating explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sunlight in the part close to vacuum This is a combined engine with various energy conservation cycles in a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are installed in multiple stages to maintain power in the vicinity of a right angle. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and split fastener (80B) is tightened Various energy conservation cycle coalescing engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the long lens (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Water (52b) is heated by compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration is further accelerated vertically downward in the vacuum, and divided and clamped (80B) Various energy conservation cycle coalescence engines of power generation method in which a plurality of series full blade impeller water turbines and series full bucket impeller water turbines and gas turbines are provided in multiple stages with a plurality of attached long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and selected from existing materials Long lens (2d) This is a combined energy storage cycle engine with a series of all-blade bouncing water turbine and series all-blade bouncing gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward to select a cross-section long lens (2d ), A series of all blade impeller water turbines and series all blade impeller gas turbines that aim to increase the amount of concentrated power generation in the water (52b) pipe in various power storage cycle coalescence engines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection and combustion + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, heat insulating long lens near the vacuum (2d) and various energy conservation cycle coalescence engines of the power generation method in which the series all blade impeller water turbine and the series all blade impeller gas turbine are arranged in multiple stages to maintain the sunlight at right angles and aim to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Unit (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B ) Various energy conservation cycle coalescence engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) and increase the power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) Combining various energy conservation cycles of a power generation method in which a series of all-blade propulsion water turbines and series all-blade propulsion gas turbines are provided in multiple stages to provide a plurality of tightened long lenses (2d) as a set organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select production length from existing materials Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing power generation with long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected cross section from existing lens cross section Combined engine with various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming at increasing concentrated power generation amount with long lens (2d) in water (52b) pipe . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward at the part close to vacuum Combined various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by maintaining long-distance lens (2d) and sunlight near right angle organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, 80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller gas turbine aiming to increase power generation by increasing the width of tightening long lens (2d) . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravitational acceleration vertically downward, split and tighten Various energy conservation cycles of a power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a set of multiple long lenses (2d) for fastening tools (80B). Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to selectively manufacture from existing materials Various energy conservation cycle coalescing engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller water turbine and gas turbines are provided in multiple stages with the long lens (2d) as a long length. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing lens cross section Combined with various energy conservation cycles of a power generation method with multiple stages of a series full blade impeller water turbine / series full blade impeller gas turbine aiming to increase the concentrated power generation amount in the water (52b) pipe with sunlight through the cross-section long lens (2d) organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and the part approaches vacuum Insulating long-lens (2d) and solar power in the vicinity of a right angle, and a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines aiming at increased power generation and various energy conservation cycles of a power generation method provided in multiple stages Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heating water (52b) with the amount of air heat (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, long lens (2d) for tightening split fastener (80B) ) Series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase the amount of power generation by increasing the width of the power generation method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heating water (52b) with air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, divided into multiple lengths of fastening tool (80B) Various energy conservation cycle coalescence engines of power generation method in which a series of all blade impeller water turbines and series all blade impeller gas turbines are provided in multiple stages to provide a lens (2d) as a set and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heating water (52b) with air calorie (28b) + Fuel injection combustion + Vaporization explosive force in gravity + Gravitational acceleration is further accelerated vertically downwards, and power is generated by selecting a selected long lens (2d) from an existing material. Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heating water (52b) with air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and sunlight is selected with a cross-section long lens (2d) from the existing lens cross section This is a combined energy storage cycle engine of a power generation method in which a water turbine (52b) is provided in multiple stages with a series full blade moving vehicle water turbine and a series full blade flying vehicle gas turbine aiming to increase the amount of concentrated power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heat water (52b) with air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and a long lens (2d) for heat insulation in a part close to vacuum Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming to increase power generation by maintaining sunlight near right angle. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Surface Floating Solar Heater Heat (28b) with water (52b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split clamp (80B) long lens (2d) This is a combined energy storage cycle engine with multiple stages of series turbine blade water turbine and series turbine blade gas turbines that aim to increase power generation by increasing the width of the turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Surface Floating Solar Heater Heating water (52b) with heat (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward and divided into a plurality of long lenses for fastening (80B) Various energy storage cycle coalescence engines of the power generation method in which (2d) is provided as a set and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Surface Floating Solar Heater Heating water (52b) with heat (28b) + Fuel injection combustion + Vaporization explosive force in gravity + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is made long from existing materials to generate electricity Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Surface Floating Solar Heater Heat water (52b) with calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross section length lens (2d) Various energy conservation cycle coalescence engines of power generation method in which water turbine (52b) is provided in multiple stages with series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing concentrated power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Surface Floating Solar Heater Heat water (52b) with heat (28b) + fuel injection combustion + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, heat insulation long lens (2d) and sun Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and serial full bucket flywheel gas turbine aiming to increase power generation by maintaining light near right angle. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosive force is increased to the maximum by + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) is increased to increase the amount of power generation This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosive force is increased to the maximum by + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) with fastening tools (80B) for power generation Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosion force in vacuum + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the power generation amount by making the selected production long lens (2d) long from existing materials. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosive force is increased to the maximum with + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated into the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosive force is increased to the maximum by + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat insulation is maintained in the vicinity of the long lens (2d) and sunlight in the vicinity of the right angle to generate electricity. Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vaporization explosion force increased to maximum with vessel (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) This is a combined energy storage cycle engine with a series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vaporization explosion force increased to maximum with vessel (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided and set with multiple long lens (2d) tightening fastener (80B) This is a combined energy storage cycle engine with a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines, which are installed in multiple stages, in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vaporization explosion force increased to maximum with vessel (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vaporization explosive force increased to maximum with vessel (2) + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerate vertically downward, sunlight from the existing lens cross section with a selected cross-section long lens (2d) water (52b) tube This is a combined energy storage cycle engine with a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vaporization explosion force increased to maximum with vessel (2) + Vaporization explosion force + gravity acceleration in vacuum Accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle This is a combined energy storage cycle engine with a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines that maintain and aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Increase the vaporization explosive force to the maximum with the heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) This is a combined energy storage cycle engine with multiple stages of series full-blade bouncing water turbine and series full-blade bouncing gas turbine that aims to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Increase the vaporization explosive force to the maximum with the heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening the fastener (80B) Combined engine of various energy conservation cycle of power generation method with multiple stages of series full bucket blade water turbine and series full bucket flywheel gas turbine installed in sets and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Increase in vaporization explosive force to the maximum with the heater (2) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward from the existing material. Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Vaporization explosion force increased to maximum with heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is water (52b) from the existing lens cross section with a selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) increases vaporization explosive force to the maximum + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle This is a combined energy storage cycle engine with multiple stages of series full bucket blade water turbines and series full bucket gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Increase in maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening, aiming to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Increase to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening the fastener (80B) to increase power generation Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Increase in maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and the total length of the selected production length lens (2d) from the existing material is aimed at increasing power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Increase in maximum + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and in a series aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Increase to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept at right angles near the vacuum, aiming to increase power generation Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power + In-vacuum explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase power generation in series. Combined engine of various energy conservation cycles of the power generation method with multiple stages of impeller water turbine and in-line full impeller impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power + Incremental vaporization force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening the fastener (80B). Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power + In-vacuum explosive force + Gravity acceleration in the vertical direction Accelerating downward in the vertical direction, selecting a production length lens (2d) from existing materials to increase power generation in series Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power + Incremental vaporization force in vacuum + Gravitational acceleration is accelerated vertically downward, and the whole series in series aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power + Increase the vaporization explosive force in the vacuum + acceleration of gravitational acceleration in the vertical direction, aiming to increase the amount of power generation by maintaining the heat insulating long lens (2d) and sunlight near right angles in the part close to the vacuum Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Multistage stage full-blade bouncer water turbine and series full-blade bouncer gas turbine that aim to increase power generation by accelerating vertically downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum A series all-blade bouncer water turbine / series all-blade bouncer gas turbine that aims to increase power generation by accelerating vertically downward and dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Various energy of the power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine that aim to increase power generation by accelerating vertically downward and lengthening the selected production length lens (2d) from existing materials Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum A series full blade impeller water turbine / series full blade impeller gas turbine that accelerates vertically downward and aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum A series all-blade bouncer water turbine and a series all-blade bouncer gas turbine that aim to increase the amount of power generation by accelerating vertically downward and maintaining the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Multistage stage full-blade bouncer water turbine and series full-blade bouncer gas turbine that aim to increase power generation by accelerating vertically downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum A series all-blade bouncer water turbine / series all-blade bouncer gas turbine that aims to increase power generation by accelerating vertically downward and dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Various energy of the power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine that aim to increase power generation by accelerating vertically downward and lengthening the selected production length lens (2d) from existing materials Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum A series full blade impeller water turbine / series full blade impeller gas turbine that accelerates vertically downward and aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum A series all-blade bouncer water turbine and a series all-blade bouncer gas turbine that aim to increase the amount of power generation by accelerating vertically downward and maintaining the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum A series full blade impeller water turbine / series full blade impeller gas turbine that accelerates further vertically downward and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum A series full blade impeller water turbine and a series full blade impeller gas aiming to increase power generation by accelerating further downward vertically and providing a set of multiple long lenses (2d) tightened with fasteners (80B). Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum Various types of power generation methods with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine that aim to increase the amount of power generation by accelerating the additional vertical downward and making the selected production length lens (2d) long from existing materials Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum A series full blade impeller water turbine / series full blade impeller gas turbine that accelerates further vertically downward and aims to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum Accelerating further vertically downward, insulative long lens (2d) and sunlight in the vicinity of right angle in the part close to the vacuum, aiming to increase the amount of power generation series all blade impeller water turbine / series all blade impeller gas Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum A series of all-blade propulsion turbine water turbines that aim to increase the amount of power generation by accelerating the explosive force + gravitational acceleration vertically downward and increasing the width of the long lens (2d) of the split fastener (80B). Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) In series, aiming to increase power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration vertically downward Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heating water (52b) with heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of long lens (2d) for split clamp (80B) tightening This is a combined energy storage cycle engine with multiple stages of series full-blade bouncing water turbine and series full-blade bouncing gas turbine that aims to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( In 28b), water (52b) is heated + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate electricity. Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) heating + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum A series of all-blade bouncing water turbines that aim to increase power generation by accelerating explosive force + gravitational acceleration vertically downward, and dividing and providing a set of multiple long lenses (2d) with fastening tools (80B) Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of a long lens (2d) for fastening a fastener (80B) to increase power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heating water (52b) with heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) Combined engine of various energy conservation cycle of power generation method with multiple stages of series full bucket blade water turbine and series full bucket flywheel gas turbine installed in sets and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( In 28b), water (52b) is heated + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, and divided into a plurality of long-length lenses (2d) for fastening a fastener (80B). This is a combined energy storage cycle engine with a series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) is heated + fuel injected and combusted + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening with a fastener (80B) Various energy conservation cycle coalescing engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine installed to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum Addition of explosive force + gravitational acceleration vertically downward, select from existing materials, make the production length lens (2d) long and aim to increase the power generation amount. Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and a series of all-blade impeller water turbines in series aiming at increasing power generation by selecting a long lens (2d) that is a selected production length from existing materials Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heat (52Y) is heated by heat exchanger (2Y) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation in series Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( 28b) Heating water (52b) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials. Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) heating + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the power generation amount by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycles of the power generation method with multiple stages of impeller water turbine and in-line full impeller impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum A series full blade impeller water turbine, in series, which accelerates the explosion force + gravitational acceleration vertically downward and aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressive heat recovery + Vaporization explosive force + Gravitational acceleration in vacuum Accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is water from selected lens cross section with selected cross-section long lens (2d) (52b) Combined engine of various energy conservation cycle of power generation method with multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( 28b) water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) is heated + fuel is injected and burned + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and sunlight is converted into a water (52b) tube from the existing lens cross section with a selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of series full bucket blade water turbine and series full bucket flywheel gas turbine aiming to increase concentrated power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum A series of all-wheel impeller water turbines that aim to increase the amount of power generation by accelerating explosive force + gravitational acceleration vertically downward and maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressed heat recovery + Vaporization explosive force + Gravity acceleration in vacuum Accelerate vertically downward and maintain heat insulation long lens (2d) and sunlight at right angles near the vacuum to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heating water (52b) with heat exchanger (2Y) + vaporizing explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and heat insulating long lens (2d) and sunlight are close to right angle at the part approaching vacuum This is a combined energy storage cycle engine with multiple stages of series full bucket blade water turbines and series full bucket gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( 28b) water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. This is a combined energy storage cycle engine with a series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) is heated + fuel-injected and combusted + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward to keep the heat insulating long lens (2d) and sunlight close to right angle near the vacuum This is a combined energy storage cycle engine with multiple stages of series full-blade bouncing water turbine and series full-blade bouncing gas turbine that aims to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum Additional energy conservation cycle coalescence engine with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming at the same maximum water generation by accelerating explosive force + gravity acceleration vertically downward . 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and a series of full blade impeller water turbines and serial full blade impeller gas turbines aiming at the same amount of maximum power generation are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heating water (52b) with heat exchanger (2Y) + vaporization explosive force in vacuum + additional acceleration of gravitational acceleration vertically downward, aiming at the same maximum water output Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( 28b) Heating water (52b) + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward to achieve the same maximum amount of water generation. Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) Heating + Fuel injection combustion + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward to achieve the same maximum amount of water generated. Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + Series all blade impeller water turbine / series all blades aiming to increase power generation by accelerating gravitational acceleration vertically downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + Accelerating the gravitational acceleration vertically downward, dividing and providing a set of multiple long lenses (2d) with fastening tools (80B) to increase the power generation amount. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + Gravity acceleration is further accelerated vertically downward, and the series production blade lens (2d) from the existing material is made long and the series all blade impeller water turbine and the series all blade impeller gas turbine are aimed at increasing power generation in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + Accelerating gravity acceleration vertically downward, and using a cross-section lens (2d) from the existing lens cross-section, aiming to increase the amount of power generated by concentrated sunlight into the water (52b) pipe. Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + Accelerating the gravitational acceleration vertically downward, and maintaining a long lens (2d) of heat insulation and sunlight in the vicinity of a right angle near the vacuum, aiming to increase power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Series (2) + series of vaporization explosive force in vacuum + acceleration of gravitational acceleration further vertically downward to increase the width of the long lens (2d) for fastening the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Series (2) + in-vacuum vaporization force + gravity acceleration is accelerated in the vertical downward direction, and the total production blade lens (2d) is selected from existing materials, aiming to increase the amount of power generation. Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat generation is increased by maintaining a long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and generate power Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long lenses (2d) for fastening fasteners (80B). Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and a series full blade impeller that aims to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Equivalent solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens section with the selected section length lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Equivalent solar heater (2) + Vaporization explosive force + Gravitational acceleration in vacuum Accelerate vertically downward, and keep heat-insulated long lens (2d) and sunlight near right angle near the vacuum Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Equivalent solar heater (2) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward, and divided into multiple sets of long lenses (2d) for fastening (80B) This is a combined energy storage cycle engine with a series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the power generation amount by increasing the length of the selected production long lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to keep the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. This is a combined energy storage cycle engine with a series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Various explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to increase the width of the long lens (2d) tightened by the split fastener (80B) and increase the power generation amount. Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for tightening fasteners (80B) to increase power generation in series Combined engine of various energy conservation cycles of the power generation method with multiple stages of impeller water turbine and in-line full impeller impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward, and the total production blade lens (2d) is selected from existing materials, aiming to increase power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward, and all the blades in series aim to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and in the part close to the vacuum, heat insulation long lens (2d) and sunlight are kept near right angle, aiming to increase power generation. Combined engine of various energy conservation cycles of the power generation method with multiple stages of impeller water turbine and in-line full impeller impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + In-vacuum series turbine blades aiming to increase the amount of power generation by accelerating vaporization explosive force + gravitational acceleration in vacuum vertically and increasing the width of the long lens (2d) of the split fastener (80B) Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + In-vacuum series blades aiming to increase power generation by accelerating vaporization explosive force + gravitational acceleration in vacuum vertically and dividing and providing multiple long lenses (2d) with fastening tools (80B) as a set Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + In-vacuum explosion force + gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation. Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + A series of all-blade impellers aiming to increase the amount of concentrated power generation from the existing lens cross-section to the water (52b) tube by accelerating the vaporization explosive force + gravitational acceleration vertically in the vacuum and selecting the long-section lens (2d) from the existing lens cross-section Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + A series of all blades that aim to increase power generation by accelerating vaporization explosive force + gravitational acceleration in a vacuum and maintaining a long lens (2d) with heat insulation and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the total length of the selected production length lens (2d) is increased from existing materials to increase power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Series that aims to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) by accelerating the vaporization explosive force + gravitational acceleration in vacuum Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part approaching the vacuum, aiming to increase power generation Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar power heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and a series of all-wheel blade bouncing water that aims to increase power generation by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated into the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and generate power Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long lenses (2d) for fastening with a fastener (80B). Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar power heater (2) + series full blade impeller that aims to increase power generation by accelerating vaporization explosive force + gravitational acceleration in vacuum vertically downward by selecting a long production lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) + Vaporization explosive force + Gravitational acceleration in vacuum Accelerate vertically downward, keeping heat insulation long lens (2d) and sunlight close to right angle near the vacuum Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + In-vacuum series turbine blades aiming to increase the amount of power generation by accelerating vaporization explosive force + gravitational acceleration in vacuum vertically and increasing the width of the long lens (2d) of the split fastener (80B) Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + In-vacuum series blades aiming to increase power generation by accelerating vaporization explosive force + gravitational acceleration in vacuum vertically and dividing and providing multiple long lenses (2d) with fastening tools (80B) as a set Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + In-vacuum explosion force + gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation. Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + A series of all-blade impellers aiming to increase the amount of concentrated power generation from the existing lens cross-section to the water (52b) tube by accelerating the vaporization explosive force + gravitational acceleration vertically in the vacuum and selecting the long-section lens (2d) from the existing lens cross-section Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + A series of all blades that aim to increase power generation by accelerating vaporization explosive force + gravitational acceleration in a vacuum and maintaining a long lens (2d) with heat insulation and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen In-line full blade impeller water turbine that aims to increase power generation by increasing the length of the long lens (2d) tightening the split fastener (80B) by accelerating the vaporization explosive force + gravitational acceleration inside・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Driven Various Cars Prime + Solar Heat Suspension Bridge (2b) Solar Heater (2) + Vacuum A series of all-blade impellers that aim to increase power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward, and dividing and providing a set of multiple long lenses (2d) with fastening tools (80B) Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen In-line full blade impeller water turbine and in-series full blade impeller gas turbine, aiming to increase power generation by accelerating the vaporization explosive force + gravitational acceleration vertically downward and selecting a long lens (2d) that is selected from existing materials Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen In-line full-wing blade bouncing water that accelerates vaporization explosion force + gravitational acceleration vertically downward, and aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross-section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Driven Various Cars Prime + Solar Heat Suspension Bridge (2b) Solar Heater (2) + Vacuum A series of all-blade impellers that aim to increase power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward and maintaining heat insulation long lens (2d) and sunlight at right angles near the vacuum Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Internal air is recovered by compressing heat + Explosive force of vaporization in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Compressed heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of a long lens (2d) for fastening with a fastener (80B) This is a combined energy storage cycle engine with a series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to increase the power generation amount by increasing the length of the selected production long lens (2d) from existing materials. Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. This is a combined energy storage cycle engine with a series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the width of long lens (2d) for split clamp (80B) tightening A series of energy conservation cycle coalescing engines with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) This is a combined energy storage cycle engine with multiple stages of series full bucket moving vehicle water turbine and series full bucket flying vehicle gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted into water (52b) from the existing lens cross section with a selected cross section long lens (2d) ) Combined engine of various energy conservation cycle of power generation method with multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight at right angles in the part approaching vacuum Combined engine with various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine maintained in the vicinity aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) This is a combined energy storage cycle engine with multiple stages of series full bucket blade water turbines and series full bucket gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Compressed heat recovery + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with a fastener (80B) ) In a set of various energy storage cycle coalescence engines with a series of full bucket moving water turbines and series full bucket flying cars gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the amount of power generation by selecting a long production lens (2d) from existing materials Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Sunlight heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is removed from the existing lens cross section with the selected cross section long lens (2d) ( 52b) A combined energy storage cycle engine of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine aiming at increasing the amount of concentrated power generation in a pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the long lens (2d) of heat insulation and sunlight are irradiated in the part approaching the vacuum Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine maintained in the vicinity of right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Recover air by compressing heat + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, increasing the width of the long lens (2d) for tightening the split fastener (80B) and aiming to increase power generation Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Compressive heat recovery of air + Explosive force of vaporization in vacuum + Gravitational acceleration is further accelerated vertically downward, and a series of all blade impeller water turbines aiming at increasing power generation by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Compressed heat recovery + Evaporative explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the concentrated power generation amount is increased from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept at right angles near the vacuum to increase power generation This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase power generation in series Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of multiple long lenses (2d) for fastening (80B) to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material. Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Internal air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to provide a long lens (80B) tightening split clamp (80B) Various energy conservation cycle coalescence engines of power generation method in which a series full bucket moving vehicle water turbine and a series full bucket flying vehicle gas turbine are provided in multiple stages to increase the width of 2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, and divided into a plurality of fasteners (80B) for fastening. Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine that aim at increasing power generation by providing a long lens (2d) as a set. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to make the selected production length lens (2d) long Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Internal air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the sun is selected from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full bucket flywheel gas turbine aiming at increasing concentrated power generation amount in light (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) The internal air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for heat insulation at the part approaching the vacuum And energy storage cycle coalescence engine of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine installed in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered with compression heat by heat pump (1G) + Explosive force of vaporization + Gravitational acceleration in vacuum is further accelerated vertically and tightened by split fastener (80B) Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of tightened long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosion force + Gravitational acceleration in vacuum is further accelerated vertically downward and selected from existing materials Long lens (2d ) Is an energy storage cycle coalescing engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward from the existing lens cross section. In 2d), various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine / series full blade impeller gas turbine that aims to increase the concentrated power generation amount in the water (52b) pipe in 2d) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation is long at the part close to vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by maintaining the lens (2d) and sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further downward vertically, split fastener (80B) tightened Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the attached long lens (2d) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward and divided into fasteners (80B) ) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller water turbine aiming to increase power generation by providing multiple tightened long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select from existing materials Various energy conservation cycle coalescence engines of power generation method in which 2d) is long and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a long lens from the existing lens cross section (2d) Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase the concentrated power generation amount in the water (52b) pipe in (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal heat (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to insulate the part close to vacuum Various energy conservation cycle coalescence engine of power generation method with multi-stage series full blade impeller water turbine / series full blade impeller water turbine aiming to increase power generation by maintaining long lens (2d) and sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Compressed heat recovery of air (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) This is a combined energy storage cycle engine with multiple stages of series full bucket blade water turbines and series full bucket gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into a plurality of long lenses (2d) for fastening with a fastener (80B) ) In a set of various energy storage cycle coalescence engines with a series of full bucket moving water turbines and series full bucket flying cars gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Recover air (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Air (28a) is recovered by compressing heat with a heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted into water (2d) from the existing lens cross section with the selected cross section long lens (2d). 52b) A combined energy storage cycle engine of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine aiming at increasing the amount of concentrated power generation in a pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation and sunlight are irradiated near the vacuum. Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine maintained in the vicinity of right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air (28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) A series of energy conservation cycle coalescing engines with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) This is a combined energy storage cycle engine with multiple stages of series full bucket moving vehicle water turbine and series full bucket flying vehicle gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Heat recovery (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is water (52b) from the existing lens cross section with the selected cross section long lens (2d) ) Combined engine of various energy conservation cycle of power generation method with multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sunlight at right angle in the part approaching vacuum Combined engine with various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine maintained in the vicinity aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the split fastener ( 80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller gas turbine aiming to increase power generation by increasing the width of tightening long lens (2d) . 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + acceleration of gravity is accelerated vertically downward, and divided and tightened Various energy conservation cycles of a power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a set of multiple long lenses (2d) for fastening tools (80B). Combined organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward to selectively produce from existing materials Various energy conservation cycle coalescing engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller water turbine and gas turbines are provided in multiple stages with the long lens (2d) as a long length. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Internal air (28a) is compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing lens cross section Combined with various energy conservation cycles of a power generation method with multiple stages of a series full blade impeller water turbine / series full blade impeller gas turbine aiming to increase the concentrated power generation amount in the water (52b) pipe with sunlight through the cross-section long lens (2d) organ. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y), the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is accelerated vertically downward, and the part that is close to the vacuum Insulating long-lens (2d) and solar power in the vicinity of a right angle, and a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines aiming at increased power generation and various energy conservation cycles of a power generation method provided in multiple stages Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided Various energy of the power generation method in which the series full blade impeller water turbine and the series full blade impeller gas turbine are provided in multiple stages to increase the power generation amount by increasing the width of the long lens (2d) for tightening the fastener (80B). Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided Then, a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of long-length lenses (2d) for tightening the fasteners (80B) to increase power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Various energy conservation cycle coalescence engine of power generation method provided with multiple stages of series full blade impeller water turbine and series full blade impeller water turbine aiming at increasing power generation by making the production long lens (2d) long from material. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Various kinds of power generation methods with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming to increase the concentrated power generation amount to the water (52b) pipe with the long section lens (2d) selected from the lens cross section Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, In a power generation method with multiple stages of a series full blade impeller water turbine and a series full blade impeller gas turbine that aim to increase the amount of power generation by maintaining a long heat insulating lens (2d) near the right angle and sunlight in the vicinity of Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, Various types of power generation methods with multiple stages of series full blade impeller water turbines and series full blade impeller gas turbines aiming to increase power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, A power generation method in which a series of all-blade bouncer water turbines and a series all-blade bouncer gas turbines are provided in multiple stages to divide and provide a plurality of long lenses (2d) for tightening fasteners (80B) as a set. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming at increasing power generation by making the selected production long lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, A power generation method with multiple stages of series full blade impeller water turbines and series full blade impeller gas turbines that aim to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, Power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming to increase power generation by maintaining long heat insulation lens (2d) and sunlight near right angle in the part close to vacuum Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in a vacuum vertically and tighten the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with a compressed water heat exchanger (2Y) and heat the water (52b) + vaporize explosive force in vacuum + accelerate the gravitational acceleration vertically downward, and divide and tighten the fastener (80B) Various energy conservation cycle coalescence engines of power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of tightened long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in the vacuum vertically and select from existing materials ) Is an energy storage cycle coalescing engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravity acceleration in the vacuum vertically downward, and select the cross-section long lens ( In 2d), various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine / series full blade impeller gas turbine that aims to increase the concentrated power generation amount in the water (52b) pipe in 2d) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with a compressed water heat exchanger (2Y) and heat the water (52b) + vaporization explosive force in vacuum + additional acceleration of gravity in the vertical downward direction, heat insulation at the part approaching the vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by maintaining the lens (2d) and sunlight near right angle. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically, and tighten the split fastener (80B) Various energy conservation cycle coalescing engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the long lens (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically and divide and tighten the clamp (80B) Various energy conservation cycle coalescence engines of power generation method in which a plurality of series full blade impeller water turbines and series full bucket impeller water turbines and gas turbines are provided in multiple stages with a plurality of attached long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating the internal air (28a) with the compressed water heat exchanger (2Y) and heating the water (52b) + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward and selecting from existing materials Long lens (2d) This is a combined energy storage cycle engine with a series of all-blade bouncing water turbine and series all-blade bouncing gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically in the vacuum, select the cross-section long lens (2d ), A series of all blade impeller water turbines and series all blade impeller gas turbines that aim to increase the amount of concentrated power generation in the water (52b) pipe in various power storage cycle coalescence engines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y), heat the water (52b) + vaporize explosive force in the vacuum + accelerate the gravitational acceleration vertically downward, heat insulation long lens near the vacuum (2d) and various energy conservation cycle coalescence engines of the power generation method in which the series all blade impeller water turbine and the series all blade impeller gas turbine are arranged in multiple stages to maintain the sunlight at right angles and aim to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, split fastener (80B) tightened Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the attached long lens (2d) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Water (52b) is heated by compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and divided into fasteners (80B ) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller water turbine aiming to increase power generation by providing multiple tightened long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heat (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and selected from existing materials Various energy conservation cycle coalescence engines of power generation method in which 2d) is long and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward to select a cross-section long lens from existing lens cross-section (2d) Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase the concentrated power generation amount in the water (52b) pipe in (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation is applied in the part approaching vacuum Various energy conservation cycle coalescence engine of power generation method with multi-stage series full blade impeller water turbine / series full blade impeller water turbine aiming to increase power generation by maintaining long lens (2d) and sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Combining various energy conservation cycles in a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, split and tighten Various energy conservation of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by providing multiple long lens (2d) tightening fixture (80B) as a set Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various energy conservation cycle coalescence engines of power generation method in which a production full-length lens (2d) is made long and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight in the selected section long lens (2d) Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration was accelerated vertically downward to bring it closer to vacuum Energy conservation of power generation method with multiple stages of series all-blade bouncer water turbine and series all-blade bouncer gas turbines that aim to increase power generation by maintaining long-insulation lens (2d) and sunlight near right angle Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, split tightening Various energy conservation cycles of a power generation method in which a series all-blade bouncer water turbine and a series all-blade bouncer gas turbine are provided in multiple stages to increase the power generation amount by increasing the width of the long lens (2d) tightening the tool (80B) Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided Various energy of the power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of long-length lenses (2d) for tightening the fastener (80B) and aim to increase power generation. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, cross-section of existing lens Energy saving of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller gas turbine aiming at increasing concentrated power generation amount in the water (52b) pipe with sunlight selected by long lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of the internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to bring it closer to vacuum Insulated long lens (2d) and solar energy in the vicinity of a right angle, and a series of all blade impeller water turbines and series all blade impeller gas turbines that aim to increase the amount of power generation. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating of water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, long lens for split clamp (80B) tightening (2d) A combined energy storage cycle engine of a power generation method in which a series full bucket moving vehicle water turbine and a series full bucket moving vehicle gas turbine are provided in multiple stages to increase the width of power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum, and vertically accelerating and splitting the fastener (80B) Various energy conservation cycle coalescence engines of power generation method in which a multi-lens series (2d) is provided as a set, and a series full blade impeller water turbine and a series full blade impeller gas turbine that aim at increasing power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and the selected production length lens (2d) is long from existing materials As a power generation method, it combines various energy storage cycle engines with a series of all-blade bouncer water turbines and a series all-blade bouncer gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Water (52b) is heated by compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is accelerated further downward in the vertical direction, and from a cross section of an existing lens with a selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller gas turbine aiming at increasing concentrated power generation amount in sunlight (52b) pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum, vertically accelerating vertically downward, heat insulating long lens (2d) ) And a series of full bucket moving water turbines and series full bucket moving cars gas turbines that aim to increase power generation by maintaining sunlight in the vicinity of a right angle. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically, long lens for split clamp (80B) tightening ( Various energy conservation cycle coalescence engines of power generation method in which a series full bucket moving vehicle water turbine and a series full bucket flying vehicle gas turbine are provided in multiple stages to increase the width of 2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple fasteners (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine that aim at increasing power generation by providing a long lens (2d) as a set. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the water (52b) with the compressed air calorie (28b) of the internal air calorie + Accelerate the vaporization explosive force + gravitational acceleration vertically in the vertical direction, select the existing production material from the long lens (2d) Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is accelerated vertically downward, and the sun is selected with a long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full bucket flywheel gas turbine aiming at increasing concentrated power generation amount in light (52b) pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating the water (52b) with the compressed air calorie (28b) of the internal air calorie + vaporizing explosive force + gravitational acceleration in the vacuum, vertically accelerating vertically downward, heat insulating long lens (2d) And energy storage cycle coalescence engine of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine installed in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, split fastener (80B) Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward and divided into fasteners ( 80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by providing multiple tightened long lenses (2d) as a set . 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and selected from existing materials Various energy storage cycle coalescence engines of power generation method in which (2d) is long and a series full blade impeller water turbine / series full blade impeller gas turbine that aims at increasing power generation is provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, and selected cross section length from existing lens cross section Various energy conservation cycle coalescence engine of power generation method in which a series of all blade impeller water turbine and series all blade impeller gas turbines aiming to increase the concentrated power generation amount in the water (52b) pipe with sunlight through the lens (2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating of water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to insulate the part close to vacuum Long lens (2d) and solar power in the vicinity of a right angle, aiming to increase the amount of power generation. . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Various energy conservation cycles of a power generation method in which a series all-blade bouncer water turbine and a series all-blade bouncer gas turbine are provided in multiple stages to increase the power generation amount by increasing the width of the long lens (2d) tightening the tool (80B) Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and divided Various energy of the power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of long-length lenses (2d) for tightening the fastener (80B) and aim to increase power generation. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, cross-section of existing lens Energy saving of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller gas turbine aiming at increasing concentrated power generation amount in the water (52b) pipe with sunlight selected by long lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards closer to vacuum Insulated long lens (2d) and solar energy in the vicinity of a right angle, and a series of all blade impeller water turbines and series all blade impeller gas turbines that aim to increase the amount of power generation. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Various types of energy conservation in a power generation method in which a series full blade impeller water turbine / series full blade impeller gas turbine is provided in multiple stages to increase the power generation amount by increasing the width of the long lens (2d) for fastening the attachment (80B). Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force + Gravitational acceleration is accelerated vertically downward and divided Various types of power generation methods with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbines, which are provided with a set of multiple long lenses (2d) for tightening the clamp (80B) to increase the amount of power generation Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, existing materials Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full bucket impeller water turbine and gas turbines are arranged in multiple stages with a long production length lens (2d) selected from the above. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, existing lens Various energy of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming to increase the amount of concentrated power generation in the pipe of sunlight (water 52b) with a long section lens (2d) selected from the cross section Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in gravity + Gravitational acceleration is accelerated vertically downward to make vacuum Various types of power generation methods with multiple stages of series full blade impeller water turbines and series full blade impeller gas turbines aiming to increase power generation by maintaining a long heat insulating lens (2d) near the right angle in the vicinity Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat of water (52b) with compressed air calorie (28b) + fuel injection and combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, length of split fastener (80B) tightening Various energy conservation cycle coalescence engines of power generation method in which a series full bucket moving vehicle water turbine and a series full bucket flying vehicle gas turbine are provided in multiple stages to increase the width of the lens (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward and divided and clamped (80B) Various energy conservation cycle coalescence engines of power generation method in which a plurality of series full-blade bouncer water turbines and series full-blade bouncer gas turbines are provided in multiple stages to provide a plurality of long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further vertically downward, select manufacturing long lens (2d) from existing materials A series of all-energy storage cycle coalescence engine with multiple stages of series full bucket blade water turbines and series full bucket gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to select a cross-section long lens (2d) from the existing lens cross section This is a combined energy storage cycle engine of a power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines aiming to increase the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration is accelerated vertically downward, and heat insulation long lens ( 2d) and various energy conservation cycle coalescence engines of a power generation method in which a series of full blade impeller water turbines and series full blade impeller gas turbines aiming to increase power generation by maintaining sunlight in the vicinity of a right angle are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, long lens for split clamp (80B) tightening (2d) A combined energy storage cycle engine of a power generation method in which a series full bucket moving vehicle water turbine and a series full bucket moving vehicle gas turbine are provided in multiple stages to increase the width of power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward and divided into fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a multi-lens series (2d) is provided as a set, and a series full blade impeller water turbine and a series full blade impeller gas turbine that aim at increasing power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration in vacuum additional vertical downward acceleration, select production length lens (2d) is long from existing materials As a power generation method, it combines various energy storage cycle engines with a series of all-blade bouncer water turbines and a series all-blade bouncer gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller gas turbine aiming at increasing concentrated power generation amount in sunlight (52b) pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for heat insulation at the part approaching the vacuum ) And a series of full bucket moving water turbines and series full bucket moving cars gas turbines that aim to increase power generation by maintaining sunlight in the vicinity of a right angle. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Increase vaporization explosive force to the maximum in + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater In (2), the vaporization explosive force is increased to the maximum + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into a set of multiple long lenses (2d) for tightening the fastener (80B) Various energy conservation cycle coalescing engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine installed to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Increases vaporization explosive force to the maximum + Vapor explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the power generation amount by increasing the selected production length lens (2d) from the existing material. Combined engine of various energy conservation cycles of the power generation method with multiple stages of impeller water turbine and in-line full impeller impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater In (2), the vaporization explosive force is increased to the maximum + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and sunlight is converted into the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of series full bucket blade water turbine and series full bucket flywheel gas turbine aiming to increase concentrated power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to keep the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. This is a combined energy storage cycle engine with multiple stages of series full-blade bouncing water turbine and series full-blade bouncing gas turbine that aims to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) This is a combined energy storage cycle engine with multiple stages of series full bucket blade water turbines and series full bucket gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Increase the vaporization explosive force to the maximum with the solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening the fastener (80B) ) In a set of various energy storage cycle coalescence engines with a series of full bucket moving water turbines and series full bucket flying cars gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material to increase the power generation amount Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is accelerated vertically downward, and the sunlight from the existing lens cross section with the selected cross-section long lens (2d) ( 52b) A combined energy storage cycle engine of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine aiming at increasing the amount of concentrated power generation in a pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vaporization explosive force in vacuum + Gravitational acceleration Accelerate vertically downward, and insulate the long lens (2d) and sunlight in the part close to the vacuum Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine maintained in the vicinity of right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming to increase power generation by increasing the width. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Maximum increase in vaporization explosive force with solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (80B) tightened ( 2d) is a set of various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the series full blade impeller gas turbine that aim at increasing power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Maximum increase in vaporization explosive force with solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production long lens (2d) long This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Increase vaporization explosive power to maximum with solar heater (2) + Vaporization explosive force in gravity + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) (52b) A combined energy storage cycle engine of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine aiming at increasing the amount of concentrated power generation in a pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Increase the vaporization explosive force to the maximum with the solar heater (2) + Add the vaporization explosive force in vacuum + Gravitational acceleration to the vertical downward direction, heat insulation long lens (2d) and sunlight in the part close to the vacuum This is a combined engine with various energy conservation cycles in a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are installed in multiple stages to maintain power in the vicinity of a right angle. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosion force is increased to the maximum + Vaporization explosion force + gravity acceleration in vacuum is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) is increased to increase the power generation amount. Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosion force increased to the maximum + Vaporization explosion force + Gravitational acceleration in the vertical direction is further accelerated vertically downward, and divided into multiple sets of a long lens (2d) for fastening the fastener (80B). Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosion force is increased to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and a series of all-blade propulsion wheel water turbines aiming to increase power generation by lengthening the selected production length lens (2d) from existing materials・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines installed in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosion force increased to the maximum + Vaporization explosion force + Gravity acceleration in the vertical direction Accelerated vertically downward, increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosive force increased to maximum + vaporization explosive force + gravity acceleration in vacuum Accelerated vertically downward, heat insulation long lens (2d) and sunlight kept near right angle near the vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Explosive force increased to maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase power generation Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Increases explosion power to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide multiple sets of long lenses (2d) for fastening (80B) to increase power generation This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Increased explosion power to maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and a series of all-blade impulsive turbine water turbines aiming to increase power generation by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Increase explosion power to maximum + Vaporization explosion force + Gravitational acceleration in vacuum Accelerate vertically downward, increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Increases explosion power to the maximum + Vaporization explosion force + Gravitational acceleration in vacuum Accelerates vertically downward, increases heat generation by maintaining long lens (2d) and sunlight near right angle near vacuum This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Acceleration of vaporization + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum A series of all-blade propulsion turbine water turbines that accelerate the vaporization explosive force + gravitational acceleration vertically downward, divide and provide a set of multiple long lenses (2d) with fastening tools (80B) to increase power generation・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines installed in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and the series production blade lens (2d) is made long from existing materials to increase power generation amount. Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and a series of all blade impeller water turbines aiming to increase concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Acceleration of vaporization + acceleration of gravity is accelerated vertically downward, and a long-insulated long lens (2d) and sunlight are kept in the vicinity of a right angle in a part close to a vacuum, aiming to increase power generation.・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines installed in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Acceleration of vaporization + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum A series of all-blade propulsion turbine water turbines that accelerate the vaporization explosive force + gravitational acceleration vertically downward, divide and provide a set of multiple long lenses (2d) with fastening tools (80B) to increase power generation・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines installed in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and the series production blade lens (2d) is made long from existing materials to increase power generation amount. Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and a series of all blade impeller water turbines aiming to increase concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Acceleration of vaporization + acceleration of gravity is accelerated vertically downward, and a long-insulated long lens (2d) and sunlight are kept in the vicinity of a right angle in a part close to a vacuum, aiming to increase power generation.・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines installed in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Accelerate the vaporization explosive force + gravitational acceleration vertically downward, increase the width of the long lens (2d) of the split fastener (80B) and increase the amount of power generation. Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Accelerate the vaporization explosive force + gravitational acceleration vertically downward, split and install a multi-long lens (2d) with a clamp (80B) to set it as a set. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and a series full blade impeller water turbine / series full blade impeller gas turbine that aims to increase the amount of power generation by selecting a long lens (2d) that is a selected production length from existing materials. Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Vaporization explosion force + gravitational acceleration is further accelerated vertically downward, and a series of all blade impeller water turbines aiming at increasing concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d)・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines installed in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the long blade (2d) of heat insulation in the part close to the vacuum and sunlight are kept in the vicinity of a right angle to aim at an increase in power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) with heat pump (1G) to recover compression heat + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening This is a combined energy storage cycle engine with multiple stages of series full-blade bouncing water turbine and series full-blade bouncing gas turbine that aims to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the length of the split fastener (80B) tightening Various energy conservation cycle coalescence engines of power generation method in which a series full bucket moving vehicle water turbine and a series full bucket flying vehicle gas turbine are provided in multiple stages to increase the width of the lens (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and long lens (2d) for split clamp (80B) tightening ) Series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase the amount of power generation by increasing the width of the power generation method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravity acceleration further downward vertically, long lens (80B) tightening split clamp (80B) Various energy conservation cycle coalescence engines of power generation method in which a series full bucket moving vehicle water turbine and a series full bucket flying vehicle gas turbine are provided in multiple stages to increase the width of 2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) is compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into a multi-lens (2d) for fastening with a fastener (80B) Combined engine of various energy conservation cycle of power generation method with multiple stages of series full bucket blade water turbine and series full bucket flywheel gas turbine installed in sets and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, and divide and tighten the clamp (80B) Various energy conservation cycle coalescence engines of power generation method in which a plurality of series full-blade bouncer water turbines and series full-blade bouncer gas turbines are provided in multiple stages to provide a plurality of long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + acceleration of gravitational acceleration further vertically downward, divided into multiple lengths of fastening tool (80B) Various energy conservation cycle coalescence engines of power generation method in which a series of all blade impeller water turbines and series all blade impeller gas turbines are provided in multiple stages to provide a lens (2d) as a set and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration further downward vertically, divided into multiple fasteners (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine that aim at increasing power generation by providing a long lens (2d) as a set. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the amount of power generation by making the production length lens (2d) longer from existing materials. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation in series Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) The internal air (28a) is heated with a compressed water heat exchanger (2Y) and water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward to select a production long lens (2d) from existing materials A series of all-energy storage cycle coalescence engine with multiple stages of series full bucket blade water turbines and series full bucket gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + Gravitational acceleration is accelerated in the vertical downward direction in vacuum, and power generation is performed by selecting a selected long lens (2d) from an existing material. Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection and combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to make the selected production length lens (2d) long Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and a series of lenses aiming at increasing the amount of concentrated power generation from the existing lens cross-section to the water (52b) tube with the selected cross-section long lens (2d) Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) (52b) Combined engine of various energy conservation cycle of power generation method with multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the cross-sectional length lens (2d) selected from the existing lens cross section This is a combined energy storage cycle engine of a power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines aiming to increase the amount of concentrated power generation in the water (52b) pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is accelerated vertically downward, and sunlight is selected from the existing lens cross section with a selected cross-section long lens (2d) This is a combined energy storage cycle engine of a power generation method in which a water turbine (52b) is provided in multiple stages with a series full blade moving vehicle water turbine and a series full blade flying vehicle gas turbine aiming to increase the amount of concentrated power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Water (52b) is heated by compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration is further accelerated vertically downward in the vacuum, and the sun is selected from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full bucket flywheel gas turbine aiming at increasing concentrated power generation amount in light (52b) pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum, aiming to increase power generation Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle This is a combined energy storage cycle engine with multiple stages of series full bucket blade water turbines and series full bucket gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heat the internal air (28a) with a compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in the vacuum vertically, and insulate the long lens ( 2d) and various energy conservation cycle coalescence engines of a power generation method in which a series of full blade impeller water turbines and series full blade impeller gas turbines aiming to increase power generation by maintaining sunlight in the vicinity of a right angle are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and heat insulating long lens (2d) is close to the vacuum. Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming to increase power generation by maintaining sunlight near right angle. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to insulate long lens (2d) near the vacuum And energy storage cycle coalescence engine of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine installed in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressed heat recovery + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward to generate the same water volume maximum power generation amount. Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) is a heat pump (1G) that recovers compression heat + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, aiming at the same maximum amount of water generated. Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed water heat exchanger (2Y) for internal air (28a) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward to achieve the same water volume maximum power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + additional acceleration of gravitational acceleration vertically downward, aiming at the same water volume maximum power generation amount Series all blade impeller water turbine・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines installed in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, aiming at the same water volume maximum power generation amount Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + In-line all blades aiming to increase power generation by accelerating vaporization explosive force + gravitational acceleration in a vacuum and increasing the width of the long lens (2d) for fastening the split fastener (80B) Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a series of multiple long lenses (2d) for tightening fasteners (80B) to increase power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and the total production length lens (2d) from the existing material is lengthened to increase the amount of power generation. Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward, and the series full-motion aiming to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycles of the power generation method with multiple stages of impeller water turbine and in-line full impeller impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + Vaporization explosion force in vacuum + Gravity acceleration is accelerated vertically downward, and the entire series that aims at increasing power generation by maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to the vacuum Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the vertical explosion force + gravitational acceleration in a vacuum, etc. This is a combined energy storage cycle engine with multiple stages of series full-blade bouncing water turbine and series full-blade bouncing gas turbine that aims to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near-right angle etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into a multiple length lens (2d) for fastening with a fastener (80B) Combined engine of various energy conservation cycle of power generation method with multiple stages of series full bucket blade water turbine and series full bucket flywheel gas turbine installed in sets and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation in series Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with a selected cross-section long lens (2d) (52b) Combined engine of various energy conservation cycle of power generation method with multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight near right angle This is a combined energy storage cycle engine with multiple stages of series full bucket blade water turbines and series full bucket gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) A long lens (2d) for tightening the split fastener (80B) by accelerating the vaporization explosive force + gravitational acceleration in the vertical direction vertically, etc. This is a combined energy storage cycle engine with multiple stages of series turbine blade water turbine and series turbine blade gas turbines that aim to increase power generation by increasing the width of the turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses with fastening tools (80B) Various energy storage cycle coalescence engines of the power generation method in which (2d) is provided as a set and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is made long from the existing material to generate electricity. Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which water turbine (52b) is provided in multiple stages with series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing concentrated power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sun Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and serial full bucket flywheel gas turbine aiming to increase power generation by maintaining light near right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to divide the clamp (80B) tightening long lens (2d) ) Series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase the amount of power generation by increasing the width of the power generation method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, divided into multiple lengths of fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a series of all blade impeller water turbines and series all blade impeller gas turbines are provided in multiple stages to provide a lens (2d) as a set and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and power is generated with a long lens (2d) selected from existing materials. Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) This is a combined energy storage cycle engine of a power generation method in which a water turbine (52b) is provided in multiple stages with a series full blade moving vehicle water turbine and a series full blade flying vehicle gas turbine aiming to increase the amount of concentrated power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming to increase power generation by maintaining sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate power Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long-length lenses (2d) for fastening a fastener (80B). Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and a series full blade impeller that aims to increase power generation by selecting a long lens (2d) to be selected from existing materials. Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross-section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Sunlight heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to maintain heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Solar power heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and a series of all-wheel blade bouncing water that aims to increase power generation by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated into the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening This is a combined energy storage cycle engine with a series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to set multiple lenses (2d) for fastening with fastener (80B) This is a combined energy storage cycle engine with a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines, which are installed in multiple stages, in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the power generation amount by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with a selected cross-section long lens (2d) to water (52b) tube This is a combined energy storage cycle engine with a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight near right angle This is a combined energy storage cycle engine with a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines that maintain and aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming to increase power generation by increasing the width. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (80B) for fastening 2d) is a set of various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the series full blade impeller gas turbine that aim at increasing power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected long lens (2d) long from existing materials This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is watered from the existing lens cross section with the selected cross-section long lens (2d) (52b) A combined energy storage cycle engine of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine aiming at increasing the amount of concentrated power generation in a pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + additional gravitational acceleration in the vertical downward direction, heat insulating long lens (2d) and sunlight This is a combined engine with various energy conservation cycles in a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are installed in multiple stages to maintain power in the vicinity of a right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, long lens (2d) for tightening split fastener (80B) This is a combined energy storage cycle engine with multiple stages of series turbine blade water turbine and series turbine blade gas turbines that aim to increase power generation by increasing the width of the turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward and divided into multiple long lenses with fastening tools (80B) Various energy storage cycle coalescence engines of the power generation method in which (2d) is provided as a set and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and the selected production length lens (2d) is made long from existing materials Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which water turbine (52b) is provided in multiple stages with series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing concentrated power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sun Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and serial full bucket flywheel gas turbine aiming to increase power generation by maintaining light near right angle. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar power heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and a series of all-wheel blade bouncing water that aims to increase power generation by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated into the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light turbine (2) + in-vacuum explosive force in vacuum + gravity acceleration is accelerated vertically downward to increase the power generation amount by selecting a long production lens (2d) from existing materials.・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is increased from the existing lens cross section to the water (52b) tube with the selected cross-section long lens (2d). This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum. Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, long lens (2d) for tightening split clamp (80B) ) Series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase the amount of power generation by increasing the width of the power generation method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple lengths of fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a series of all blade impeller water turbines and series all blade impeller gas turbines are provided in multiple stages to provide a lens (2d) as a set and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and power is generated by selecting a selected production length lens (2d) from an existing material Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near-right angle + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected with a long section (2d) from the existing lens cross section This is a combined energy storage cycle engine of a power generation method in which a water turbine (52b) is provided in multiple stages with a series full blade moving vehicle water turbine and a series full blade flying vehicle gas turbine aiming to increase the amount of concentrated power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) in the part approaching vacuum Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming to increase power generation by maintaining sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Compressed heat recovery + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward to divide the clamp (80B) Various energy conservation cycle coalescing engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the long lens (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Compressed heat recovery + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward, and divided and clamped (80B) Various energy conservation cycle coalescence engines of power generation method in which a plurality of series full blade impeller water turbines and series full bucket impeller water turbines and gas turbines are provided in multiple stages with a plurality of attached long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Compressive heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select from existing materials Manufacturing lens (2d) This is a combined energy storage cycle engine with a series of all-blade bouncing water turbine and series all-blade bouncing gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air is compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a cross-section lens (2d) ), A series of all blade impeller water turbines and series all blade impeller gas turbines that aim to increase the amount of concentrated power generation in the water (52b) pipe in various power storage cycle coalescence engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air is recovered by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and a long lens that insulates near the vacuum (2d) and various energy conservation cycle coalescence engines of the power generation method in which the series all blade impeller water turbine and the series all blade impeller gas turbine are arranged in multiple stages to maintain the sunlight at right angles and aim to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Close to right angle with sunlight + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, split fastener (80B) tightening Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward and divided into fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of tightened long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, select from existing materials long lens (2d ) Is an energy storage cycle coalescing engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force + Gravity acceleration in vacuum In 2d), various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine / series full blade impeller gas turbine that aims to increase the concentrated power generation amount in the water (52b) pipe in 2d) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and the heat insulation length is close to the vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by maintaining the lens (2d) and sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the width of long lens (2d) for split clamp (80B) tightening This is a combined energy conservation cycle engine with multiple stages of series turbine blade water turbines and series turbine blade gas turbines that are increasing in number and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) This is a combined energy storage cycle engine with multiple stages of series full bucket moving vehicle water turbine and series full bucket flying vehicle gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted into water (52b) from the existing lens cross section with a selected cross section long lens (2d) ) Combined engine of various energy conservation cycle of power generation method with multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight at right angles in the part approaching vacuum Combined engine with various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine maintained in the vicinity aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for fastening the split fastener (80B) This is a combined energy storage cycle engine with multiple stages of series full-blade bouncing water turbine and series full-blade bouncing gas turbine that aims to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward and divided into multiple length lens (2d) for fastening with clamp (80B) Combined engine of various energy conservation cycle of power generation method with multiple stages of series full bucket blade water turbine and series full bucket flywheel gas turbine installed in sets and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the production length lens (2d) long from existing materials Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross-section with a long lens (2d) (52b) Combined engine of various energy conservation cycle of power generation method with multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Compressed heat recovery of internal air + Vaporization explosion force in vacuum + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight near right angle This is a combined energy storage cycle engine with multiple stages of series full bucket blade water turbines and series full bucket gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) + Solar power (2) The internal air (28a) is recovered by compressing heat with a heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener ( 80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller gas turbine aiming to increase power generation by increasing the width of tightening long lens (2d) . 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) Internal air (28a) with heat pump (1G) recovering compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, divided and tightened Various energy conservation cycles of a power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a set of multiple long lenses (2d) for fastening tools (80B). Combined organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to selectively manufacture from existing materials Various energy conservation cycle coalescing engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller water turbine and gas turbines are provided in multiple stages with the long lens (2d) as a long length. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing lens cross section Combined with various energy conservation cycles of a power generation method with multiple stages of a series full blade impeller water turbine / series full blade impeller gas turbine aiming to increase the concentrated power generation amount in the water (52b) pipe with sunlight through the cross-section long lens (2d) organ. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near the right angle + Solar heater (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and the part approaches vacuum Insulating long-lens (2d) and solar power in the vicinity of a right angle, and a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines aiming at increased power generation and various energy conservation cycles of a power generation method provided in multiple stages Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated downward vertically and split Various energy of the power generation method in which the series full blade impeller water turbine and the series full blade impeller gas turbine are provided in multiple stages to increase the power generation amount by increasing the width of the long lens (2d) for tightening the fastener (80B). Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated downward vertically and split Then, a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of long-length lenses (2d) for tightening the fasteners (80B) to increase power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated vertically downward, existing Various energy conservation cycle coalescence engine of power generation method provided with multiple stages of series full blade impeller water turbine and series full blade impeller water turbine aiming at increasing power generation by making the production long lens (2d) long from material. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated vertically downward, existing Various kinds of power generation methods with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming to increase the concentrated power generation amount to the water (52b) pipe with the long section lens (2d) selected from the lens cross section Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air (28a) with heat pump (1G) to recover heat compression + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, vacuum In a power generation method with multiple stages of a series full blade impeller water turbine and a series full blade impeller gas turbine that aim to increase the amount of power generation by maintaining a long heat insulating lens (2d) near the right angle and sunlight in the vicinity of Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, Various types of power generation methods with multiple stages of series full blade impeller water turbines and series full blade impeller gas turbines aiming to increase power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, A power generation method in which a series of all-blade bouncer water turbines and a series all-blade bouncer gas turbines are provided in multiple stages to divide and provide a plurality of long lenses (2d) for tightening fasteners (80B) as a set. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming at increasing power generation by making the selected production long lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, A power generation method with multiple stages of series full blade impeller water turbines and series full blade impeller gas turbines that aim to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, Power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming to increase power generation by maintaining long heat insulation lens (2d) and sunlight near right angle in the part close to vacuum Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Internal air (28a) is recovered with compression heat by heat pump (1G) + Explosive force of vaporization + Gravitational acceleration in vacuum is further accelerated vertically and tightened by split fastener (80B) Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of tightened long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosion force + Gravitational acceleration in vacuum is further accelerated vertically downward and selected from existing materials Long lens (2d ) Is an energy storage cycle coalescing engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward from the existing lens cross section. In 2d), various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine / series full blade impeller gas turbine that aims to increase the concentrated power generation amount in the water (52b) pipe in 2d) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation is long at the part close to vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by maintaining the lens (2d) and sunlight near right angle. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward, and split fastener (80B) is tightened Various energy conservation cycle coalescing engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the long lens (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided and clamped (80B) Various energy conservation cycle coalescence engines of power generation method in which a plurality of series full blade impeller water turbines and series full bucket impeller water turbines and gas turbines are provided in multiple stages with a plurality of attached long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and selected from existing materials Long lens (2d) This is a combined energy storage cycle engine with a series of all-blade bouncing water turbine and series all-blade bouncing gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) The internal air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward to select a long lens (2d) ), A series of all blade impeller water turbines and series all blade impeller gas turbines that aim to increase the amount of concentrated power generation in the water (52b) pipe in various power storage cycle coalescence engines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Recover internal air (28a) with heat pump (1G) + evacuate explosive force in vacuum + gravitational acceleration in the vertical downward direction, heat insulation long lens near the vacuum (2d) and various energy conservation cycle coalescence engines of the power generation method in which the series all blade impeller water turbine and the series all blade impeller gas turbine are arranged in multiple stages to maintain the sunlight at right angles and aim to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward The multi-stage power generation with the series full blade impeller water turbine and the serial full blade impeller gas turbine aiming to increase the amount of power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward A series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to divide and provide a set of multiple long lenses (2d) for tightening fasteners (80B). Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward In addition, various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming at increasing power generation by making the selected production length lens (2d) long from existing materials . 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward In addition, a series full blade impeller water turbine and a series full blade impeller gas turbine that aim to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward In a part close to a vacuum, a long lens (2d) for heat insulation and a series full blade impeller water turbine and a series full blade impeller gas turbine that maintain sunlight in the vicinity of a right angle to increase power generation are provided in multiple stages. Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum Multistage stage full-blade bouncer water turbine and series full-blade bouncer gas turbine that aim to increase power generation by accelerating vertically downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum A series all-blade bouncer water turbine / series all-blade bouncer gas turbine that aims to increase power generation by accelerating vertically downward and dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum Various energy of the power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine that aim to increase power generation by accelerating vertically downward and lengthening the selected production length lens (2d) from existing materials Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum A series full blade impeller water turbine / series full blade impeller gas turbine that accelerates vertically downward and aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum A series all-blade bouncer water turbine and a series all-blade bouncer gas turbine that aim to increase the amount of power generation by accelerating vertically downward and maintaining the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum A series full blade impeller water turbine / series full blade impeller gas turbine that accelerates further vertically downward and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum A series full blade impeller water turbine and a series full blade impeller gas aiming to increase power generation by accelerating further downward vertically and providing a set of multiple long lenses (2d) tightened with fasteners (80B). Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum Various types of power generation methods with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine that aim to increase the amount of power generation by accelerating the additional vertical downward and making the selected production length lens (2d) long from existing materials Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum A series full blade impeller water turbine / series full blade impeller gas turbine that accelerates further vertically downward and aims to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum Accelerating further vertically downward, insulative long lens (2d) and sunlight in the vicinity of right angle in the part close to the vacuum, aiming to increase the amount of power generation series all blade impeller water turbine / series all blade impeller gas Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided Various energy of the power generation method in which the series full blade impeller water turbine and the series full blade impeller gas turbine are provided in multiple stages to increase the power generation amount by increasing the width of the long lens (2d) for tightening the fastener (80B). Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided Then, a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of long-length lenses (2d) for tightening the fasteners (80B) to increase power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Various energy conservation cycle coalescence engine of power generation method provided with multiple stages of series full blade impeller water turbine and series full blade impeller water turbine aiming at increasing power generation by making the production long lens (2d) long from material. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Various kinds of power generation methods with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming to increase the concentrated power generation amount to the water (52b) pipe with the long section lens (2d) selected from the lens cross section Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, In a power generation method with multiple stages of a series full blade impeller water turbine and a series full blade impeller gas turbine that aim to increase the amount of power generation by maintaining a long heat insulating lens (2d) near the right angle and sunlight in the vicinity of Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and tightened Various types of energy conservation in a power generation method in which a series full blade impeller water turbine / series full blade impeller gas turbine is provided in multiple stages to increase the power generation amount by increasing the width of the long lens (2d) for fastening the attachment (80B). Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward and divided Various types of power generation methods with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbines, which are provided with a set of multiple long lenses (2d) for tightening the clamp (80B) to increase the amount of power generation Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Internal air (28a) is compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, existing materials Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full bucket impeller water turbine and gas turbines are arranged in multiple stages with a long production length lens (2d) selected from the above. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, existing lens Various energy of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming to increase the amount of concentrated power generation in the pipe of sunlight (water 52b) with a long section lens (2d) selected from the cross section Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heat internal air (28a) with compressed water heat exchanger (2Y) + Water (52b) + Vaporization explosive force + Gravity acceleration in vacuum Various types of power generation methods with multiple stages of series full blade impeller water turbines and series full blade impeller gas turbines aiming to increase power generation by maintaining a long heat insulating lens (2d) near the right angle in the vicinity Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically Various types of power generation methods with multiple stages of series full blade impeller water turbines and series full blade impeller gas turbines aiming to increase power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically A power generation method in which a series of all-blade bouncer water turbines and a series all-blade bouncer gas turbines are provided in multiple stages to divide and provide a plurality of long lenses (2d) for tightening fasteners (80B) as a set. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming at increasing power generation by making the selected production long lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically A power generation method with multiple stages of series full blade impeller water turbines and series full blade impeller gas turbines that aim to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically Power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming to increase power generation by maintaining long heat insulation lens (2d) and sunlight near right angle in the part close to vacuum Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating and increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation, the series full blade impeller water turbine and the serial full blade impeller gas turbine are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Multi-stage series full blade impeller water turbine / series full blade impeller gas turbine that aims to increase power generation by accelerating, splitting and providing multiple long lenses (2d) for fastening fasteners (80B) as a set Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Combined with various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by accelerating and selecting long production length lens (2d) from existing materials organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerate and install a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines in multiple stages aiming to increase concentrated power generation from the existing lens cross-section to the water (52b) pipe with sunlight with a selected cross-section long lens (2d) Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerate and maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase the power generation amount. Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating and increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation, the series all blade impeller water turbine and the series all blade impeller gas turbine are provided in multiple stages. Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing power generation by providing multiple long lenses (2d) with clamps (80B) tightened as a set. Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating the production process, the production length lens (2d) from the existing material is made long, and various energy conservation cycles of the power generation method in which the series all blade impeller water turbine and the series all blade impeller gas turbine are provided in multiple stages aiming to increase the power generation amount. Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerate to the existing lens cross-section, and select a long section lens (2d) to direct sunlight into the water (52b) tube. Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Multistage stages of series all blade impeller water turbines and series all blade impeller gas turbines that aim to increase power generation by maintaining heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Combining various energy conservation cycles in a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, split and tighten Various energy conservation of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by providing multiple long lens (2d) tightening fixture (80B) as a set Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various energy conservation cycle coalescence engines of power generation method in which a production full-length lens (2d) is made long and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight in the selected section long lens (2d) Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration was accelerated vertically downward to bring it closer to vacuum Energy conservation of power generation method with multiple stages of series all-blade bouncer water turbine and series all-blade bouncer gas turbines that aim to increase power generation by maintaining long-insulation lens (2d) and sunlight near right angle Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener ( 80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller gas turbine aiming to increase power generation by increasing the width of tightening long lens (2d) . 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravitational acceleration in vacuum vertically, split and tighten Various energy conservation cycles of a power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a set of multiple long lenses (2d) for fastening tools (80B). Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various energy conservation cycle coalescing engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller water turbine and gas turbines are provided in multiple stages with the long lens (2d) as a long length. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing lens cross section Combined with various energy conservation cycles of a power generation method with multiple stages of a series full blade impeller water turbine / series full blade impeller gas turbine aiming to increase the concentrated power generation amount in the water (52b) pipe with sunlight through the cross-section long lens (2d) organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the part approaches vacuum Insulating long-lens (2d) and solar power in the vicinity of a right angle, and a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines aiming at increased power generation and various energy conservation cycles of a power generation method provided in multiple stages Combined organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward A power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward Power generation with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming to increase power generation by splitting and providing a set of multiple long lenses (2d) for fastening fasteners (80B) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by making the selected production long lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward A power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages, aiming to increase the amount of concentrated power generation from the existing lens cross section to a water (52b) pipe with sunlight selected from a long section lens (2d) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward Power generation with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming to increase power generation by maintaining long heat insulation lens (2d) and sunlight at right angles near the vacuum Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating and increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation, the series all blade impeller water turbine and the series all blade impeller gas turbine are provided in multiple stages. Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing power generation by providing multiple long lenses (2d) with clamps (80B) tightened as a set. Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating the production process, the production length lens (2d) from the existing material is made long, and various energy conservation cycles of the power generation method in which the series all blade impeller water turbine and the series all blade impeller gas turbine are provided in multiple stages aiming to increase the power generation amount. Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerate to the existing lens cross-section, and select a long section lens (2d) to direct sunlight into the water (52b) tube. Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Multistage stages of series all blade impeller water turbines and series all blade impeller gas turbines that aim to increase power generation by maintaining heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical Accelerating downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation The series all blade impeller water turbine and the series all blade impeller gas turbine in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical A series full blade impeller water turbine and a series full blade impeller gas turbine that aim to increase power generation by accelerating downward and dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical Accelerating downwards, selecting a long lens (2d) from the existing material, and increasing the amount of power generation, aiming to increase the amount of power generation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical Multistage stage full-blade bouncer water turbine and series full-blade bouncer gas turbine that aim to increase concentrated power generation by accelerating downward and selecting sunlight from the cross section of the existing lens to the water (52b) pipe with the long section lens (2d) Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical A series full blade impeller water turbine / series full blade impeller gas turbine that accelerates downward and maintains the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Various energy conservation cycles of a power generation method in which a series all-blade bouncer water turbine and a series all-blade bouncer gas turbine are provided in multiple stages to increase the power generation amount by increasing the width of the long lens (2d) tightening the tool (80B) Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and divided Various energy of the power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of long-length lenses (2d) for tightening the fastener (80B) and aim to increase power generation. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, cross-section of existing lens Energy saving of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller gas turbine aiming at increasing concentrated power generation amount in the water (52b) pipe with sunlight selected by long lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards closer to vacuum Insulated long lens (2d) and solar energy in the vicinity of a right angle, and a series of all blade impeller water turbines and series all blade impeller gas turbines that aim to increase the amount of power generation. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Combining various energy conservation cycles in a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, divided and tightened Various energy conservation of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by providing multiple long lens (2d) tightening fixture (80B) as a set Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various energy conservation cycle coalescence engines of power generation method in which a production full-length lens (2d) is made long and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from the existing lens cross section Various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight in the selected section long lens (2d) Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to bring it closer to vacuum Energy conservation of power generation method with multiple stages of series all-blade bouncer water turbine and series all-blade bouncer gas turbines that aim to increase power generation by maintaining long-insulation lens (2d) and sunlight near right angle Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Increase the vaporization explosive force to the maximum with the solar heater (2) + Add a vaporization explosive force + gravity acceleration in vacuum to the vertical downward direction in the vacuum and add a long lens (80B) Various energy conservation cycle coalescence engines of power generation method in which a series full bucket moving vehicle water turbine and a series full bucket flying vehicle gas turbine are provided in multiple stages to increase the width of 2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Increase the vaporization explosive force to the maximum with the solar heater (2) + increase the vaporization explosive force + gravity acceleration in the vacuum vertically further in the vertical direction, and divide and tighten multiple fasteners (80B) Various energy conservation cycle coalescing engines of power generation method in which a long lens (2d) is provided as a set and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near-right angle + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to make the selected production length lens (2d) long Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected cross section lens (2d) is used to accelerate the sun Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full bucket flywheel gas turbine aiming at increasing concentrated power generation amount in light (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near-right angle + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat insulating long lens (2d) near the vacuum And energy storage cycle coalescence engine of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine installed in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase the vaporization explosive force to the maximum with the solar heater (2) + Accelerate the vaporization explosive force + gravitational acceleration vertically in the vacuum and tighten the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase the vaporization explosive force to the maximum with the solar heater (2) + Accelerate the vaporization explosive force + gravitational acceleration vertically downward in the vacuum, and divide the fastener (80B) Various energy conservation cycle coalescence engines of power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of tightened long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vaporization explosive force + gravitational acceleration in a vacuum vertically in the vacuum and select from existing materials ) Is an energy storage cycle coalescing engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vaporization explosive force in vacuum + Gravitational acceleration in the vertical downward direction, select a cross-section long lens ( In 2d), various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine / series full blade impeller gas turbine that aims to increase the concentrated power generation amount in the water (52b) pipe in 2d) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase the vaporization explosive power to the maximum with the solar heater (2) + Add vaporization explosive force + gravity acceleration in the vacuum vertically in the vacuum and lengthen the heat insulation in the part close to the vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by maintaining the lens (2d) and sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at a right angle + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downwards to tighten the split fastener (80B) Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the attached long lens (2d) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at a right angle + Increase the vaporization explosive force to the maximum with the solar heater (2) + Accelerate the vaporization explosive force + gravitational acceleration in the vacuum vertically and divide the fastener (80B) ) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller water turbine aiming to increase power generation by providing multiple tightened long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle to sunlight + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and selected from existing materials Various energy conservation cycle coalescence engines of power generation method in which 2d) is long and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at a right angle + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward to select a cross-section long lens from the existing lens cross section (2d) Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase the concentrated power generation amount in the water (52b) pipe in (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at a right angle + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in gravity + Gravitational acceleration is accelerated vertically downward, and heat insulation is applied at the part close to vacuum Various energy conservation cycle coalescence engine of power generation method with multi-stage series full blade impeller water turbine / series full blade impeller water turbine aiming to increase power generation by maintaining long lens (2d) and sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) This is a combined energy storage cycle engine with multiple stages of series full bucket blade water turbines and series full bucket gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Increase the vaporization explosive force to the maximum with the solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening the fastener (80B) ) In a set of various energy storage cycle coalescence engines with a series of full bucket moving water turbines and series full bucket flying cars gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material to increase the power generation amount Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is accelerated vertically downward, and the sunlight from the existing lens cross section with the selected cross-section long lens (2d) ( 52b) A combined energy storage cycle engine of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine aiming at increasing the amount of concentrated power generation in a pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vaporization explosive force in vacuum + Gravitational acceleration Accelerate vertically downward, and insulate the long lens (2d) and sunlight in the part close to the vacuum Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine maintained in the vicinity of right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Increase the vaporization explosive force to the maximum with the light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) This is a combined energy conservation cycle engine with multiple stages of series turbine blade water turbines and series turbine blade gas turbines that are increasing in number and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Multi-long lens (2d) tightened with fastener (80B) by accelerating vaporization explosion force + gravity acceleration in vacuum additionally vertically downward by light heater (2) This is a combined energy storage cycle engine with multiple stages of series full bucket moving vehicle water turbine and series full bucket flying vehicle gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) increases vaporization explosive force to the maximum + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, aiming to increase power generation by making the selected long lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Vaporization explosive force increased to maximum with light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted to water (52b) from the existing lens cross section with a selected cross section long lens (2d) ) Combined engine of various energy conservation cycle of power generation method with multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) increases vaporization explosive force to the maximum + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and heat insulating long lens (2d) and sunlight are perpendicular to the part near the vacuum Combined engine with various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine maintained in the vicinity aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Accelerate the vaporization explosive force + gravitational acceleration vertically downward, increase the width of the long lens (2d) of the split fastener (80B) and increase the amount of power generation. Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Accelerate the vaporization explosive force + gravitational acceleration vertically downward, split and install a multi-long lens (2d) with a clamp (80B) to set it as a set. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and a series full blade impeller water turbine / series full blade impeller gas turbine that aims to increase the amount of power generation by selecting a long lens (2d) that is a selected production length from existing materials. Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosion force + gravitational acceleration is further accelerated vertically downward, and a series of all blade impeller water turbines aiming at increasing concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d)・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the long blade (2d) of heat insulation in the part close to the vacuum and sunlight are kept in the vicinity of a right angle to aim at an increase in power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Accelerate the vaporization explosive force + gravitational acceleration vertically downward, increase the width of the long lens (2d) of the split fastener (80B) and increase the amount of power generation. Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Accelerate the vaporization explosive force + gravitational acceleration vertically downward, split and install a multi-long lens (2d) with a clamp (80B) to set it as a set. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and a series full blade impeller water turbine / series full blade impeller gas turbine that aims to increase the amount of power generation by selecting a long lens (2d) that is a selected production length from existing materials. Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosion force + gravitational acceleration is further accelerated vertically downward, and a series of all blade impeller water turbines aiming at increasing concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d)・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines installed in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the long blade (2d) of heat insulation in the part close to the vacuum and sunlight are kept in the vicinity of a right angle to aim at an increase in power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum In-line full blade impeller water turbine that aims to increase power generation by increasing the length of the long lens (2d) tightening the split fastener (80B) by accelerating the vaporization explosive force + gravitational acceleration inside・ Various types of energy conservation cycle coalescence engine with power generation method with multiple series turbine blades and gas turbines installed in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum A series of all-blade impellers that aim to increase power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward, and dividing and providing a set of multiple long lenses (2d) with fastening tools (80B) Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum In-line full blade impeller water turbine and in-series full blade impeller gas turbine, aiming to increase power generation by accelerating the vaporization explosive force + gravitational acceleration vertically downward and selecting a long lens (2d) that is selected from existing materials Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum In-line full-wing blade bouncing water that accelerates vaporization explosion force + gravitational acceleration vertically downward, and aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross-section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum A series of all-blade impellers that aim to increase power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward and maintaining heat insulation long lens (2d) and sunlight at right angles near the vacuum Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase power generation in series Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) This is a combined energy conservation cycle engine with multiple stages of series turbine blade water turbines and series turbine blade gas turbines that are increasing in number and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically, and tighten the split fastener (80B) Various energy conservation cycle coalescing engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the long lens (2d) to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically, long lens for split clamp (80B) tightening ( Various energy conservation cycle coalescence engines of power generation method in which a series full bucket moving vehicle water turbine and a series full bucket flying vehicle gas turbine are provided in multiple stages to increase the width of 2d). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, long lens for split clamp (80B) tightening (2d) A combined energy storage cycle engine of a power generation method in which a series full bucket moving vehicle water turbine and a series full bucket moving vehicle gas turbine are provided in multiple stages to increase the width of power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of multiple long lenses (2d) for fastening (80B) to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) This is a combined energy storage cycle engine with multiple stages of series full bucket moving vehicle water turbine and series full bucket flying vehicle gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically and divide and tighten the clamp (80B) Various energy conservation cycle coalescence engines of power generation method in which a plurality of series full blade impeller water turbines and series full bucket impeller water turbines and gas turbines are provided in multiple stages with a plurality of attached long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple fasteners (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine that aim at increasing power generation by providing a long lens (2d) as a set. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward and divided into fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a multi-lens series (2d) is provided as a set, and a series full blade impeller water turbine and a series full blade impeller gas turbine that aim at increasing power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material. Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Heat recovery (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating the internal air (28a) with the compressed water heat exchanger (2Y) and heating the water (52b) + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward and selecting from existing materials Long lens (2d) This is a combined energy storage cycle engine with a series of all-blade bouncing water turbine and series all-blade bouncing gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the water (52b) with the compressed air calorie (28b) of the internal air calorie + Accelerate the vaporization explosive force + gravitational acceleration vertically in the vertical direction, select the existing production material from the long lens (2d) Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration in vacuum additional vertical downward acceleration, select production length lens (2d) is long from existing materials As a power generation method, it combines various energy storage cycle engines with a series of all-blade bouncer water turbines and a series all-blade bouncer gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is water (52b) from the existing lens cross section with the selected cross section long lens (2d) ) Combined engine of various energy conservation cycle of power generation method with multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically in the vacuum, select the cross-section long lens (2d ), A series of all blade impeller water turbines and series all blade impeller gas turbines that aim to increase the amount of concentrated power generation in the water (52b) pipe in various power storage cycle coalescence engines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is accelerated vertically downward, and the sun is selected with a long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full bucket flywheel gas turbine aiming at increasing concentrated power generation amount in light (52b) pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller gas turbine aiming at increasing concentrated power generation amount in sunlight (52b) pipe. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sunlight at right angle in the part approaching vacuum Combined engine with various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine maintained in the vicinity aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y), heat the water (52b) + vaporize explosive force in the vacuum + accelerate the gravitational acceleration vertically downward, heat insulation long lens near the vacuum (2d) and various energy conservation cycle coalescence engines of the power generation method in which the series all blade impeller water turbine and the series all blade impeller gas turbine are arranged in multiple stages to maintain the sunlight at right angles and aim to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating the water (52b) with the compressed air calorie (28b) of the internal air calorie + vaporizing explosive force + gravitational acceleration in the vacuum, vertically accelerating vertically downward, heat insulating long lens (2d) And energy storage cycle coalescence engine of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine installed in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for heat insulation at the part approaching the vacuum ) And a series of full bucket moving water turbines and series full bucket moving cars gas turbines that aim to increase power generation by maintaining sunlight in the vicinity of a right angle. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and a series full blade impeller water turbine and a series full blade impeller gas turbine aiming at the same maximum water generation are installed in multiple stages Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) Compressive heat recovery with heat pump (1G) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward to achieve the same maximum amount of water generated. Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating the internal air (28a) with the compressed water heat exchanger (2Y) and heating the water (52b) + vaporizing explosive force in the vacuum + accelerating the gravitational acceleration vertically downward to achieve the same water volume maximum power generation Combined engine of various energy conservation cycles of the power generation method with multiple stages of impeller water turbine and in-line full impeller impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorific value + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming at the same water volume maximum power generation amount Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + additional acceleration of gravity acceleration downward vertically, aiming at the same water maximum power generation Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) + full-motion in series that aims to increase power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the vaporization explosive force + gravitational acceleration vertically in the vacuum Combined engine of various energy conservation cycles of the power generation method with multiple stages of impeller water turbine and in-line full impeller impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) A series of series that aims to increase power generation by accelerating the vaporization explosive force + gravitational acceleration in a vacuum, vertically, dividing and providing a set of multiple long lenses (2d) for fastening (80B). Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) In-vacuum explosion force + Gravitational acceleration in a vacuum. Accelerating downward in the vertical direction, selecting a long lens (2d) from existing materials, aiming to increase power generation. Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward, and the entire series in series aims to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of moving blade water turbine and in-line full moving blade gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) Series that aims to increase the amount of power generation by accelerating the vaporization explosive force + gravitational acceleration in vacuum vertically and maintaining the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening This is a combined energy conservation cycle engine with multiple stages of series turbine blade water turbines and series turbine blade gas turbines that are increasing in number and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening (80B) This is a combined energy storage cycle engine with multiple stages of series full bucket moving vehicle water turbine and series full bucket flying vehicle gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, aiming to increase power generation by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is taken from the existing lens cross section with a selected cross-section long lens (2d) (52b ) Combined engine of various energy conservation cycle of power generation method with multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up, etc. + Solar heater (2) + Vaporization explosive force + Gravity acceleration in vacuum Accelerate vertically downward, heat insulation long lens (2d) and sunlight at right angle Combined engine with various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine maintained in the vicinity aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for tightening the split fastener (80B) ) Series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase the amount of power generation by increasing the width of the power generation method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, divided into multiple lengths of fastening tool (80B) Various energy conservation cycle coalescence engines of power generation method in which a series of all blade impeller water turbines and series all blade impeller gas turbines are provided in multiple stages to provide a lens (2d) as a set and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Left and right up and down etc. with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and selected long lens (2d) is selected from existing materials for power generation Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) This is a combined energy storage cycle engine of a power generation method in which a water turbine (52b) is provided in multiple stages with a series full blade moving vehicle water turbine and a series full blade flying vehicle gas turbine aiming to increase the amount of concentrated power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and a long lens (2d) for heat insulation is used near the vacuum. Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming to increase power generation by maintaining sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right and up with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to divide the long lens (80B) Various energy conservation cycle coalescence engines of power generation method in which a series full bucket moving vehicle water turbine and a series full bucket flying vehicle gas turbine are provided in multiple stages to increase the width of 2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward and divided into multiple fasteners (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine that aim at increasing power generation by providing a long lens (2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to make the selected production length lens (2d) long Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up, etc. with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and the sun is selected from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full bucket flywheel gas turbine aiming at increasing concentrated power generation amount in light (52b) pipe. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down, etc. + Solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and a long lens (2d) for heat insulation at the part close to the vacuum And energy storage cycle coalescence engine of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine installed in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening (80B) This is a combined energy storage cycle engine with a series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the power generation amount by increasing the length of the selected production long lens (2d) from existing materials. Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and serial all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross-section with the selected cross-section long lens (2d) Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force + Gravity acceleration in vacuum Accelerate vertically downward, and keep the long lens (2d) of heat insulation and sunlight close to right angle near the vacuum. This is a combined energy storage cycle engine with a series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase power generation in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate power Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long-length lenses (2d) for fastening a fastener (80B). Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and a series full blade impeller that aims to increase power generation by selecting a long lens (2d) to be selected from existing materials. Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross-section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Sunlight heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to maintain heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) This is a combined energy storage cycle engine with multiple stages of series full-blade bouncing water turbine and series full-blade bouncing gas turbine that aims to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward and divided into a multiple length lens (2d) for fastening with a fastener (80B) Combined engine of various energy conservation cycle of power generation method with multiple stages of series full bucket blade water turbine and series full bucket flywheel gas turbine installed in sets and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation in series Various energy conservation cycle coalescing engines of power generation method with multi-stage turbine blade turbine water turbine and series turbine blade gas turbine in series. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) (52b) Combined engine of various energy conservation cycle of power generation method with multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight near right angle near the vacuum This is a combined energy storage cycle engine with multiple stages of series full bucket blade water turbines and series full bucket gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Left and right and up with a hanging tool + solar heater (2) + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, long lens (2d) for tightening split fastener (80B) This is a combined energy storage cycle engine with multiple stages of series turbine blade water turbine and series turbine blade gas turbines that aim to increase power generation by increasing the width of the turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Left and right and up with a hanging tool + solar heater (2) + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, divided into multiple long lenses for fastening (80B) Various energy storage cycle coalescence engines of the power generation method in which (2d) is provided as a set and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is made long from the existing material. Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which water turbine (52b) is provided in multiple stages with series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing concentrated power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation and the sun are close to the vacuum. Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and serial full bucket flywheel gas turbine aiming to increase power generation by maintaining light near right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a hanging tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for split fastening (80B) fastening ) Series of all-blade propeller water turbines and series all-blade propeller gas turbines that aim to increase the amount of power generation by increasing the width of the power generation method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple lengths of fastening tool (80B) Various energy conservation cycle coalescence engines of power generation method in which a series of all blade impeller water turbines and series all blade impeller gas turbines are provided in multiple stages to provide a lens (2d) as a set and aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to select a long lens (2d) to be produced from existing materials for power generation Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) This is a combined energy storage cycle engine of a power generation method in which a water turbine (52b) is provided in multiple stages with a series full blade moving vehicle water turbine and a series full blade flying vehicle gas turbine aiming to increase the amount of concentrated power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a hanging tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation in the part approaching the vacuum Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming to increase power generation by maintaining sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate power Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long-length lenses (2d) for fastening a fastener (80B). Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and a series full blade impeller that aims to increase power generation by selecting a long lens (2d) to be selected from existing materials. Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross-section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Sunlight heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to maintain heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar power heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and a series of all-wheel blade bouncing water that aims to increase power generation by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and series all blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated into the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine aiming for increase. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of vacuum. Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing quantity. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, long lens for split clamp (80B) tightening ( Various energy conservation cycle coalescence engines of power generation method in which a series full bucket moving vehicle water turbine and a series full bucket flying vehicle gas turbine are provided in multiple stages to increase the width of 2d). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, divided into multiple fasteners (80B) tightening Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine that aim at increasing power generation by providing a long lens (2d) as a set. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward to make the selected production length lens (2d) long Combined engine of various energy conservation cycles of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine in order to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) Compressive heat recovery of internal air + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward and the sun is selected from the existing lens cross section with the selected cross section length lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full bucket flywheel gas turbine aiming at increasing concentrated power generation amount in light (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) internal heat recovery + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, heat insulating long lens near the vacuum (2d) And energy storage cycle coalescence engine of power generation method with multiple stages of series turbine blade water turbine and series turbine blade gas turbine installed in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar light heater (2) Compressed heat recovery + Evaporative explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split fastener (80B) is tightened Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of tightened long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) Compressive heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select from existing materials Manufacturing lens (2d ) Is an energy storage cycle coalescing engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar light heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a cross-section long lens ( In 2d), various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine / series full blade impeller gas turbine that aims to increase the concentrated power generation amount in the water (52b) pipe in 2d) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar light heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation in the part near the vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by maintaining the lens (2d) and sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with the lifting tool + Solar heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to divide the clamp (80B) Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the attached long lens (2d) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) ) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller water turbine aiming to increase power generation by providing multiple tightened long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a hanging tool + Solar heating (2) Compressed heat recovery of the internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a production length lens (existing material) Various energy conservation cycle coalescence engines of power generation method in which 2d) is long and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + Solar heater (2) Compressed heat recovery of the internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a long section from the existing lens cross section (2d) Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase the concentrated power generation amount in the water (52b) pipe in (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting device + Solar heater (2) Compressed heat recovery of the internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to insulate the part close to the vacuum Various energy conservation cycle coalescence engine of power generation method with multi-stage series full blade impeller water turbine / series full blade impeller water turbine aiming to increase power generation by maintaining long lens (2d) and sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) This is a combined energy storage cycle engine with multiple stages of series full bucket blade water turbines and series full bucket gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with a fastener (80B) ) In a set of various energy storage cycle coalescence engines with a series of full bucket moving water turbines and series full bucket flying cars gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by selecting a long production lens (2d) from existing materials Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) ( 52b) A combined energy storage cycle engine of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine aiming at increasing the amount of concentrated power generation in a pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Sunlight heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight in the part close to vacuum Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine maintained in the vicinity of right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the width of long lens (2d) for split clamp (80B) tightening A series of energy conservation cycle coalescing engines with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) This is a combined energy storage cycle engine with multiple stages of series full bucket moving vehicle water turbine and series full bucket flying vehicle gas turbine that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted into water (52b) from the existing lens cross section with a selected cross section long lens (2d) ) Combined engine of various energy conservation cycle of power generation method with multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing concentrated power generation in the pipe. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight at right angles in the part approaching vacuum Combined engine with various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine maintained in the vicinity aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) internal heat (28a) compression heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, split fastener (80B) Combining various energy conservation cycles in a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) organ. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, divided and tightened Various energy conservation of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by providing multiple long lens (2d) tightening fixture (80B) as a set Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) Internal air (28a) compression heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward and selected from existing materials Various energy conservation cycle coalescence engines of power generation method in which a production full-length lens (2d) is made long and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) internal air (28a) compression heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward from the existing lens cross section Various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight in the selected section long lens (2d) Combined organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) Internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward to approach the vacuum Energy conservation of power generation method with multiple stages of series all-blade bouncer water turbine and series all-blade bouncer gas turbines that aim to increase power generation by maintaining long-insulation lens (2d) and sunlight near right angle Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, Various types of power generation methods with multiple stages of series full blade impeller water turbines and series full blade impeller gas turbines aiming to increase power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, A power generation method in which a series of all-blade bouncer water turbines and a series all-blade bouncer gas turbines are provided in multiple stages to divide and provide a plurality of long lenses (2d) for tightening fasteners (80B) as a set. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming at increasing power generation by making the selected production long lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, A power generation method with multiple stages of series full blade impeller water turbines and series full blade impeller gas turbines that aim to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, Power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming to increase power generation by maintaining long heat insulation lens (2d) and sunlight near right angle in the part close to vacuum Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward A power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward Power generation with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming to increase power generation by splitting and providing a set of multiple long lenses (2d) for fastening fasteners (80B) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by making the selected production long lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward A power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages, aiming to increase the amount of concentrated power generation from the existing lens cross section to a water (52b) pipe with sunlight selected from a long section lens (2d) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward Power generation with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming to increase power generation by maintaining long heat insulation lens (2d) and sunlight at right angles near the vacuum Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Explosive force of vaporization in vacuum + Gravitational acceleration is further accelerated vertically downward and split fastener (80B) is tightened Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the attached long lens (2d) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) ) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller water turbine aiming to increase power generation by providing multiple tightened long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Recover internal air (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated vertically downward, select from existing materials Various energy conservation cycle coalescence engines of power generation method in which 2d) is long and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Internal air (28a) with heat pump (1G) recovering heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to select a cross-section long lens from the existing lens cross section (2d) Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase the concentrated power generation amount in the water (52b) pipe in (2d). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Internal air (28a) with heat pump (1G) recovering compression heat + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, heat insulation at the part approaching vacuum Various energy conservation cycle coalescence engine of power generation method with multi-stage series full blade impeller water turbine / series full blade impeller water turbine aiming to increase power generation by maintaining long lens (2d) and sunlight near right angle. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered with compression heat by heat pump (1G) + Explosive force of vaporization + Gravitational acceleration in vacuum is further accelerated vertically and tightened by split fastener (80B) Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by increasing the width of the long lens (2d). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of tightened long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosion force + Gravitational acceleration in vacuum is further accelerated vertically downward and selected from existing materials Long lens (2d ) Is an energy storage cycle coalescing engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket flywheel gas turbine aiming at increasing power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward from the existing lens cross section. In 2d), various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine / series full blade impeller gas turbine that aims to increase the concentrated power generation amount in the water (52b) pipe in 2d) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation is long at the part close to vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by maintaining the lens (2d) and sunlight near right angle. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerating and increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation, the series full blade impeller water turbine and the serial full blade impeller gas turbine are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Multi-stage series full blade impeller water turbine / series full blade impeller gas turbine that aims to increase power generation by accelerating, splitting and providing multiple long lenses (2d) for fastening fasteners (80B) as a set Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Combined with various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by accelerating and selecting long production length lens (2d) from existing materials organ. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerate and install a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines in multiple stages aiming to increase concentrated power generation from the existing lens cross-section to the water (52b) pipe with sunlight with a selected cross-section long lens (2d) Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerate and maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase the power generation amount. Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum A series full blade impeller water turbine / series full blade impeller gas turbine that accelerates further vertically downward and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum A series full blade impeller water turbine and a series full blade impeller gas aiming to increase power generation by accelerating further downward vertically and providing a set of multiple long lenses (2d) tightened with fasteners (80B). Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum Various types of power generation methods with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine that aim to increase the amount of power generation by accelerating the additional vertical downward and making the selected production length lens (2d) long from existing materials Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum A series full blade impeller water turbine / series full blade impeller gas turbine that accelerates further vertically downward and aims to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum Accelerating further vertically downward, insulative long lens (2d) and sunlight in the vicinity of right angle in the part close to the vacuum, aiming to increase the amount of power generation series all blade impeller water turbine / series all blade impeller gas Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration In addition, the series full blade impeller water turbine and the series full blade impeller gas turbine aiming to increase the amount of power generation by increasing the width of the long lens (2d) of the divided fastener (80B) tightening Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration A series of all-blade bouncer water turbines and series all-blade bouncers aiming to increase power generation by accelerating the lower part vertically and providing a set of multiple long lenses (2d) with clamps (80B). Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration A series of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming to increase power generation by accelerating vertically downward and selecting a long production lens (2d) from existing materials Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration Accelerating vertically downward, a series full blade impeller water turbine / series full blade impeller gas aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration Accelerating vertically downward, heat insulation long lens (2d) in the part close to vacuum and maintaining the sunlight in the right angle vicinity, aiming to increase power generation water turbine / series all blade impeller Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, Various types of power generation methods with multiple stages of series full blade impeller water turbines and series full blade impeller gas turbines aiming to increase power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, A power generation method in which a series of all-blade bouncer water turbines and a series all-blade bouncer gas turbines are provided in multiple stages to divide and provide a plurality of long lenses (2d) for tightening fasteners (80B) as a set. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, Various energy conservation cycle coalescence engine of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming at increasing power generation by making the selected production long lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, A power generation method with multiple stages of series full blade impeller water turbines and series full blade impeller gas turbines that aim to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, Power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming to increase power generation by maintaining long heat insulation lens (2d) and sunlight near right angle in the part close to vacuum Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided Various energy of the power generation method in which the series full blade impeller water turbine and the series full blade impeller gas turbine are provided in multiple stages to increase the power generation amount by increasing the width of the long lens (2d) for tightening the fastener (80B). Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided Then, a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of long-length lenses (2d) for tightening the fasteners (80B) to increase power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Various energy conservation cycle coalescence engine of power generation method provided with multiple stages of series full blade impeller water turbine and series full blade impeller water turbine aiming at increasing power generation by making the production long lens (2d) long from material. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Various kinds of power generation methods with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming to increase the concentrated power generation amount to the water (52b) pipe with the long section lens (2d) selected from the lens cross section Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, In a power generation method with multiple stages of a series full blade impeller water turbine and a series full blade impeller gas turbine that aim to increase the amount of power generation by maintaining a long heat insulating lens (2d) near the right angle and sunlight in the vicinity of Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum A power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Power generation with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming to increase power generation by splitting and providing a set of multiple long lenses (2d) for fastening fasteners (80B) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by making the selected production long lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum A power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages, aiming to increase the amount of concentrated power generation from the existing lens cross section to a water (52b) pipe with sunlight selected from a long section lens (2d) Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Power generation with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming to increase power generation by maintaining long heat insulation lens (2d) and sunlight at right angles near the vacuum Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating and increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation, the series all blade impeller water turbine and the series all blade impeller gas turbine are provided in multiple stages. Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Multi-stage series full blade impeller water turbine and series full blade impeller gas turbine aiming at increasing power generation by providing multiple long lenses (2d) with clamps (80B) tightened as a set. Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating the production process, the production length lens (2d) from the existing material is made long, and various energy conservation cycles of the power generation method in which the series all blade impeller water turbine and the series all blade impeller gas turbine are provided in multiple stages aiming to increase the power generation amount. Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerate to the existing lens cross-section, and select a long section lens (2d) to direct sunlight into the water (52b) tube. Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Multistage stages of series all blade impeller water turbines and series all blade impeller gas turbines that aim to increase power generation by maintaining heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically Accelerating downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation The series all blade impeller water turbine and the series all blade impeller gas turbine in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically A series full blade impeller water turbine and a series full blade impeller gas turbine that aim to increase power generation by accelerating downward and dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically Accelerating downwards, selecting a long lens (2d) from the existing material, and increasing the amount of power generation, aiming to increase the amount of power generation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically Multistage stage full-blade bouncer water turbine and series full-blade bouncer gas turbine that aim to increase concentrated power generation by accelerating downward and selecting sunlight from the cross section of the existing lens to the water (52b) pipe with the long section lens (2d) Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically A series full blade impeller water turbine / series full blade impeller gas turbine that accelerates downward and maintains the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Various energy conservation cycles of a power generation method in which a series all-blade bouncer water turbine and a series all-blade bouncer gas turbine are provided in multiple stages to increase the power generation amount by increasing the width of the long lens (2d) tightening the tool (80B) Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Accelerating gravity acceleration additional vertically downward and dividing Various energy of the power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of long-length lenses (2d) for tightening the fastener (80B) and aim to increase power generation. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, cross section of existing lens Energy saving of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller gas turbine aiming at increasing concentrated power generation amount in the water (52b) pipe with sunlight selected by long lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Sunlight heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downwards, approaching vacuum Insulated long lens (2d) and solar energy in the vicinity of a right angle, and a series of all blade impeller water turbines and series all blade impeller gas turbines that aim to increase the amount of power generation. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Combining various energy conservation cycles in a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, split and tighten Various energy conservation of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by providing multiple long lens (2d) tightening fixture (80B) as a set Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various energy conservation cycle coalescence engines of power generation method in which a production full-length lens (2d) is made long and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Various energy conservation cycles of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight in the selected section long lens (2d) Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration was accelerated vertically downward to bring it closer to vacuum Energy conservation of power generation method with multiple stages of series all-blade bouncer water turbine and series all-blade bouncer gas turbines that aim to increase power generation by maintaining long-insulation lens (2d) and sunlight near right angle Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward A power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the long lens (2d) for tightening the split fastener (80B). Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward In addition, a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines that are divided and provided with a plurality of long lenses (2d) for tightening the fasteners (80B) as a set are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward In addition, various energy conservation cycle coalescence engines of a power generation method provided with multiple stages of a series full blade impeller water turbine and a series full bucket impeller water turbine and a series full bucket impeller water turbine aiming to increase the amount of power generation by making the selected production long lens (2d) long from existing materials. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward Power generation with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward In a part close to a vacuum, a heat insulating long lens (2d) and a series full blade impeller water turbine and a series full blade impeller gas turbine that maintain the sunlight in the vicinity of a right angle and aim to increase power generation are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically Accelerating downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation The series all blade impeller water turbine and the series all blade impeller gas turbine in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically A series full blade impeller water turbine and a series full blade impeller gas turbine that aim to increase power generation by accelerating downward and dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically Accelerating downwards, selecting a long lens (2d) from the existing material, and increasing the amount of power generation, aiming to increase the amount of power generation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically Multistage stage full-blade bouncer water turbine and series full-blade bouncer gas turbine that aim to increase concentrated power generation by accelerating downward and selecting sunlight from the cross section of the existing lens to the water (52b) pipe with the long section lens (2d) Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically A series full blade impeller water turbine / series full blade impeller gas turbine that accelerates downward and maintains the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation. Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added Multistage stage full-blade bouncer water turbine and series full-blade bouncer gas turbine that aim to increase power generation by accelerating vertically downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added A series all-blade bouncer water turbine / series all-blade bouncer gas turbine that aims to increase power generation by accelerating vertically downward and dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added Various energy of the power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine that aim to increase power generation by accelerating vertically downward and lengthening the selected production length lens (2d) from existing materials Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added A series full blade impeller water turbine / series full blade impeller gas turbine that accelerates vertically downward and aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added A series all-blade bouncer water turbine and a series all-blade bouncer gas turbine that aim to increase the amount of power generation by accelerating vertically downward and maintaining the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Various types of energy conservation in a power generation method in which a series full blade impeller water turbine / series full blade impeller gas turbine is provided in multiple stages to increase the power generation amount by increasing the width of the long lens (2d) for fastening the attachment (80B). Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided Various types of power generation methods with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbines, which are provided with a set of multiple long lenses (2d) for tightening the clamp (80B) to increase the amount of power generation Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, existing materials Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full bucket impeller water turbine and gas turbines are arranged in multiple stages with a long production length lens (2d) selected from the above. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, existing lens Various energy of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming to increase the amount of concentrated power generation in the pipe of sunlight (water 52b) with a long section lens (2d) selected from the cross section Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward Various types of power generation methods with multiple stages of series full blade impeller water turbines and series full blade impeller gas turbines aiming to increase power generation by maintaining a long heat insulating lens (2d) near the right angle in the vicinity Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Various energy conservation cycles of a power generation method in which a series all-blade bouncer water turbine and a series all-blade bouncer gas turbine are provided in multiple stages to increase the power generation amount by increasing the width of the long lens (2d) tightening the tool (80B) Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and divided Various energy of the power generation method in which a series of all-blade bouncer water turbines and series all-blade bouncer gas turbines are provided in multiple stages to provide a plurality of long-length lenses (2d) for tightening the fastener (80B) and aim to increase power generation. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and serial full blade impeller gas turbine aiming at increasing power generation by making the selected production long lens (2d) long. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, cross-section of existing lens Energy saving of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller gas turbine aiming at increasing concentrated power generation amount in the water (52b) pipe with sunlight selected by long lens (2d) Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards closer to vacuum Insulated long lens (2d) and solar energy in the vicinity of a right angle, and a series of all blade impeller water turbines and series all blade impeller gas turbines that aim to increase the amount of power generation. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, long lens for split clamp (80B) tightening (2d) A combined energy storage cycle engine of a power generation method in which a series full bucket moving vehicle water turbine and a series full bucket moving vehicle gas turbine are provided in multiple stages to increase the width of power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) Various energy conservation cycle coalescence engines of power generation method in which a multi-lens series (2d) is provided as a set, and a series full blade impeller water turbine and a series full blade impeller gas turbine that aim at increasing power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a long lens (2d) from the existing material As a power generation method, it combines various energy storage cycle engines with a series of all-blade bouncer water turbines and a series all-blade bouncer gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right up and down + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and from existing lens cross section with selected cross section length lens (2d) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller gas turbine aiming at increasing concentrated power generation amount in sunlight (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) ) And a series of full bucket moving water turbines and series full bucket moving cars gas turbines that aim to increase power generation by maintaining sunlight in the vicinity of a right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Lift the left and right and up with the lifting tool + Increase the vaporization explosive force to the maximum with the solar heater (2) + Accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically and tighten the split fastener (80B) Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the attached long lens (2d) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Left and right and up with the lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) ) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller water turbine aiming to increase power generation by providing multiple tightened long lenses (2d) as a set. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase / decrease the vaporization explosive force to the maximum with a solar heater (2) + Add vaporization explosive force in gravity + Gravitational acceleration in the vertical downward direction, select from existing materials Various energy conservation cycle coalescence engines of power generation method in which 2d) is long and a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase and decrease the vaporization explosion force to the maximum with the solar heater (2) + Add vaporization explosion force in gravity + Gravitational acceleration in the vertical downward direction, select a cross-section long lens from the existing lens cross section (2d) Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages aiming to increase the concentrated power generation amount in the water (52b) pipe in (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase / decrease the vaporization explosion force with the solar heater (2) + Increase vaporization explosion force + gravitational acceleration in the vacuum vertically in the vacuum, heat insulation in the part close to the vacuum Various energy conservation cycle coalescence engine of power generation method with multi-stage series full blade impeller water turbine / series full blade impeller water turbine aiming to increase power generation by maintaining long lens (2d) and sunlight near right angle. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Various energy conservation cycle coalescence engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are provided in multiple stages to increase the width of the tightening long lens (2d) to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with the lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners ( 80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller water turbine aiming to increase power generation by providing multiple tightened long lenses (2d) as a set . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and selected from existing materials Various energy storage cycle coalescence engines of power generation method in which (2d) is long and a series full blade impeller water turbine / series full blade impeller gas turbine that aims at increasing power generation is provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and selected cross-section length from existing lens cross-section Various energy conservation cycle coalescence engine of power generation method in which a series of all blade impeller water turbine and series all blade impeller gas turbines aiming to increase the concentrated power generation amount in the water (52b) pipe with sunlight through the lens (2d). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward to insulate the part close to the vacuum Long lens (2d) and solar power in the vicinity of a right angle, aiming to increase the amount of power generation. . 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is further accelerated vertically downward, and the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine aiming to increase power generation by increasing the width. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (80B) tightened ( 2d) is a set of various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the series full blade impeller gas turbine that aim at increasing power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase in vaporization and explosion force to maximum with solar heater (2) + Vaporization and explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production lens (2d) long from existing materials This is a combined energy storage cycle engine with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbines that aim for the power generation. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vapor explosive force in the vacuum + Gravitational acceleration to accelerate vertically downward, and water from the existing lens cross section with the selected cross section long lens (2d) (52b) A combined energy storage cycle engine of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine aiming at increasing the amount of concentrated power generation in a pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation and sunlight in the part close to the vacuum This is a combined engine with various energy conservation cycles in a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine are installed in multiple stages to maintain power in the vicinity of a right angle. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) This is a combined energy storage cycle engine with multiple stages of series full bucket blade water turbines and series full bucket gas turbines that aim to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increase the vaporization explosive force to the maximum with the solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening the fastener (80B) ) In a set of various energy storage cycle coalescence engines with a series of full bucket moving water turbines and series full bucket flying cars gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material to increase the power generation amount Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full blade impeller gas turbine targeted. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is accelerated vertically downward, and the sunlight from the existing lens cross section with the selected cross-section long lens (2d) ( 52b) A combined energy storage cycle engine of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine aiming at increasing the amount of concentrated power generation in a pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vaporization explosive force in vacuum + Gravitational acceleration Accelerate vertically downward, and insulate the long lens (2d) and sunlight in the part close to the vacuum Combined engine of various energy conservation cycle of power generation method with multiple stages of series full blade impeller water turbine and series full bucket impeller gas turbine maintained in the vicinity of right angle and aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Preventing Global Warming + Vaporization Explosive Force in Vacuum + Gravity Acceleration Accelerates Vertically Downward, Split Fastener (80B) Fastening Long Lens (2d) Energy Conservation Cycle of Power Generation Method with Multiple Stages of Opposed-Series Full-Bloom Bouncer Water Turbine and Opposite-Series Full-Bloom Bouncer Gas Turbine with Friction Loss Reduction Means (3) Aiming to Increase Power Generation by Increasing the Width Combined organization. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Generation Method to Prevent Global Warming + Vaporization Explosive Force in Vacuum + Gravity Acceleration is further accelerated vertically downward and divided into multiple long lenses with fastening tools (80B) Various energy of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine provided with the friction loss reducing means (3) provided with the set (2d) as a set to increase the power generation amount are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro aerodynamic Solar power generation method to prevent global warming + Vaporization explosion force in vacuum + Gravity acceleration is accelerated vertically downward, and selected production length lens (2d) from existing material is made long and power generation amount Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-pneumatic solar power generation method to prevent global warming + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various types of energy conservation in a power generation method in which a water turbine (52b) is provided with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-pneumatic solar power generation to prevent global warming + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sun Various energies of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) aiming to increase power generation by maintaining light in the vicinity of a right angle are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, split fastener (80B ) Increased width of tightening long lens (2d) to increase power generation amount Increased power generation amount Friction loss reduction means (3) equipped with opposed series full blade impeller water turbine / opposite series full blade impeller gas turbine in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, divided and clamped (80B) A counter-series full-blade propulsion water turbine / opposite-series full-blade propulsion gas turbine provided with friction loss reducing means (3) that is provided with a plurality of tightened long lenses (2d) as a set to increase power generation amount Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward and selected from existing materials Various types of energy conservation in a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase the amount of power generation with a long lens (2d) are provided in multiple stages. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation with CO2 Exhaust Zero Power Generation + Solar Heater (2) + Vaporization Explosive Force in Vacuum + Gravitational Acceleration Accelerates Vertically Downward, Selects Cross Section from Existing Lens Cross Section Multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the amount of power generation concentrated on the water (52b) pipe with sunlight through the long lens (2d) Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with zero CO2 emissions + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward at the part approaching the vacuum A counter-series full-blade bouncer water turbine and a counter-series full-blade bouncer gas turbine equipped with an insulating long lens (2d) and friction loss reducing means (3) aiming to increase power generation by maintaining sunlight in the vicinity of a right angle Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, split fastener (80B ) Increased width of tightening long lens (2d) to increase power generation amount Increased power generation amount Friction loss reduction means (3) equipped with opposed series full blade impeller water turbine / opposite series full blade impeller gas turbine in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた狙う各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, divided and clamped (80B) A multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine provided with a friction loss reducing means (3) to provide a plurality of tightened long lenses (2d) as a set to increase power generation A variety of energy conservation cycle coalescence engine set up in 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward and selected from existing materials Various types of energy conservation in a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase the amount of power generation with a long lens (2d) are provided in multiple stages. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation with CO2 Exhaust Zero Power Generation + Solar Heater (2) + Vaporization Explosive Force in Vacuum + Gravitational Acceleration Accelerates Vertically Downward, Selects Cross Section from Existing Lens Cross Section Multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the amount of power generation concentrated on the water (52b) pipe with sunlight through the long lens (2d) Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with zero CO2 emissions + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward at the part approaching the vacuum A counter-series full-blade bouncer water turbine and a counter-series full-blade bouncer gas turbine equipped with an insulating long lens (2d) and friction loss reducing means (3) aiming to increase power generation by maintaining sunlight in the vicinity of a right angle Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward In addition, the opposed series all-blade propulsion wheel water turbine / opposed series all equipped with friction loss reducing means (3) that increases the width of the long lens (2d) for fastening the divided fastener (80B) to increase the power generation amount Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward In addition, the opposed series full blade impeller water turbine / opposite equipped with friction loss reducing means (3) that is provided with a set of multiple long lenses (2d) for tightening the fasteners (80B) and aiming to increase power generation Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward The multi-stage opposed series full-blade bouncer water turbine and opposed series full-blade bouncer gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by lengthening the selected production long lens (2d) from existing materials Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward From the existing lens cross section, the opposed series full blade impeller water turbine / opposed series equipped with friction loss reducing means (3) aiming to increase the amount of concentrated power generation from the cross section of the existing lens to the water (52b) pipe with sunlight selected from the long lens (2d) Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward In addition, a long-insulated lens (2d) near the vacuum and a friction loss reducing means (3) that maintains sunlight in the vicinity of a right angle to increase the amount of power generation. Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration A counter-series full blade impeller equipped with friction loss reducing means (3) that accelerates further vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Friction loss reduction means (3) aiming to increase the amount of power generation by accelerating the vaporization explosive force + gravitational acceleration downward in the vertical direction and increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b Friction loss aiming to increase power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the vaporization explosive force + gravitational acceleration in the vacuum + heating in vacuum + Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) is increased to increase the amount of power generated Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration Opposed series full-motion equipped with friction loss reducing means (3) aiming to increase power generation by accelerating further vertically downward and providing a set of multiple long lenses (2d) tightened with fasteners (80B) Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Friction loss reduction means for accelerating the vaporization explosive force + gravitational acceleration in the vertically downward direction and dividing and providing a set of multiple long lenses (2d) for fastening the fastener (80B) to increase the power generation amount ( 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, divided into multiple long lenses (2d) for fastening fasteners (80B), and a set of power generation Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for fastening the fastener (80B) to increase power generation Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and a plurality of long lenses (2d) tightened with a fastener (80B) are provided as a set to increase power generation Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration Accelerating further vertically downward, and making the selected production length lens (2d) long from the existing material, and a friction loss reduction means (3) that aims to increase the power generation amount. Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the opposed series full blades equipped with friction loss reduction means (3) aiming to increase the power generation amount by lengthening the selected production length lens (2d) from the existing material Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Friction loss reduction means (3) that heats water (52b) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b )) + Friction loss reduction means (3) aiming to increase the amount of power generation by increasing the length of the selected production length lens (2d) from existing materials by accelerating the vaporization explosive force + gravitational acceleration in the vacuum vertically Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and the friction loss reduction means (3) is aimed at increasing the power generation amount by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration An opposed series full blade equipped with friction loss reducing means (3) for accelerating downward in the vertical direction and aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with sunlight by the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Friction loss reduction means (3) which accelerates vaporization explosive force + gravitational acceleration vertically downward and aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is increased to the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d). Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is applied to the water (52b) tube from the existing lens cross-section with a selected cross-section long lens (2d) Friction that aims to increase the amount of concentrated power generation Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross-section to the water (52b) tube with the selected cross-section long lens (2d) Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration Opposite series full motion with friction loss reduction means (3) aiming to increase the amount of power generation by accelerating further vertically downward and keeping the heat insulating long lens (2d) near the right angle near the vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Friction loss reduction means that aim to increase power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward and maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of the vacuum. Opposed in-series all rotor blades equipped with friction loss reducing means (3) provided with multistage stages of opposed in-series all-blade bouncer water turbine and opposed in-series all-blade bouncer gas turbine equipped with friction loss reducing means (3) aimed at increase Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to the vacuum, aiming to increase power generation Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum to increase power generation Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-wing blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles + solar heater (2) + vaporization explosive force in vacuum + The opposing series all equipped with a friction loss reducing means (3) for accelerating the gravitational acceleration downward and increasing the width of the long lens (2d) of the split fastener (80B) to increase the power generation amount. Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-wing blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles + solar heater (2) + vaporization explosive force in vacuum + Opposite equipped with friction loss reducing means (3) for accelerating gravitational acceleration vertically and dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-wing blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles + solar heater (2) + vaporization explosive force in vacuum + An opposed series full blade impeller water turbine / opposed series equipped with friction loss reducing means (3) that accelerates the gravitational acceleration further downward and makes the selected production length lens (2d) longer from existing materials to increase power generation Various energy conservation cycles of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reduction means (3) provided with the multistage bouncer gas turbine in multiple stages are provided. Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-wing blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles + solar heater (2) + vaporization explosive force in vacuum + Opposite series equipped with friction loss reduction means (3) for accelerating gravitational acceleration vertically downward and selecting concentrated lens length (2d) from existing lens cross section to water (52b) pipe to increase concentrated power generation amount Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) + vaporization explosive force in vacuum + Opposite equipped with frictional loss reduction means (3) aiming to increase the amount of power generation by accelerating gravitational acceleration vertically downward and keeping the heat insulating long lens (2d) near the right angle in the vicinity of the vacuum Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Friction loss that aims to increase power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration vertically downward Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Compressive heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is made long from existing materials, and friction loss reducing means (3) is aimed at increasing power generation. Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Compressive heat recovery + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and friction is aimed at increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum, aiming to increase power generation Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, increasing the width of the long lens (2d) for tightening the split fastener (80B) and increasing the amount of power generation Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Compressed heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Friction loss reduction means (3) which aims to increase the power generation amount by increasing the length of the selected production length lens (2d) from existing materials by accelerating the internal air by compressing heat recovery + vaporizing explosive force + gravity acceleration in vacuum vertically downward ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated on the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Compressed heat recovery of internal air + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, generating heat by maintaining a long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and generate power. Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Internal air is recovered by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long lenses (2d) for tightening the fastener (80B). Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Friction loss reduction means that aims to increase power generation by increasing the length of the selected manufacturing long lens (2d) from existing materials by accelerating the internal air by compressing heat recovery + vaporizing explosive force + gravity acceleration in vacuum vertically downward 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Internal air is recovered by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, keeping the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + Friction loss reducing means (3) that accelerates vaporization explosive force + gravitational acceleration in a vacuum in the vacuum and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount (3 ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + Friction loss reduction means for accelerating vaporization explosive force + gravitational acceleration in vacuum, vertically and dividing, and providing multiple long lenses (2d) for fastening fasteners (80B) to increase power generation (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + Opposite series full motion equipped with friction loss reduction means (3) aiming to increase power generation amount by increasing the length of the selected production length lens (2d) from existing materials by accelerating vaporization explosive force + gravity acceleration in vacuum vertically Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + Friction loss reduction means for accelerating vaporization explosive force + gravitational acceleration in vacuum vertically downward, and aiming to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) ( 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heater (2) internal air compression heat recovery + Friction loss reduction means aiming to increase power generation by accelerating vaporization explosive force + gravitational acceleration in vacuum vertically and maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum Friction loss reduction means (3) aiming to increase the amount of power generation by accelerating the vaporization explosive force + gravitational acceleration downward in the vertical direction and increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum Friction loss reduction means for accelerating the vaporization explosive force + gravitational acceleration in the vertically downward direction and dividing and providing a set of multiple long lenses (2d) for fastening the fastener (80B) to increase the power generation amount ( 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the opposed series full blades equipped with friction loss reduction means (3) aiming to increase the power generation amount by lengthening the selected production length lens (2d) from the existing material Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum Friction loss reduction means (3) which accelerates vaporization explosive force + gravitational acceleration vertically downward and aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) internal air compressed heat recovery + vacuum Friction loss reduction means that aim to increase power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward and maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) with heat pump (1G) to recover compression heat + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening Then, various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming to increase the power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) is compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into a multi-lens (2d) for fastening with a fastener (80B) Combined engine of various energy conservation cycle of power generation method provided with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller water turbine equipped with friction loss reducing means (3) provided as a set to increase power generation amount . 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and friction is aimed at increasing power generation by selecting a long lens (2d) that is a selected production length from existing materials Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) (52b) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing concentrated power generation in the pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half cylinder outer box (77B) (2) internal air ( 28a) heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle The combined energy storage cycle engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) to maintain the power generation and to increase the power generation amount . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, split clamp (80B) tightening long lens (2d) Energy Conservation Cycle of Power Generation Method with Multiple Stages of Opposed-Series Full-Bloom Bouncer Water Turbine and Opposite-Series Full-Bloom Bouncer Gas Turbine with Friction Loss Reduction Means (3) Aiming to Increase Power Generation by Increasing the Width Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, split into multiple long lenses with fastening tool (80B) Various energy of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine provided with the friction loss reducing means (3) provided with the set (2d) as a set to increase the power generation amount are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and select production length lens (2d) from existing material to make power generation amount long Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, and select sunlight from the existing lens cross section with the selected cross section length lens (2d) Various types of energy conservation in a power generation method in which a water turbine (52b) is provided with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, heat insulation long lens (2d) and sun Various energies of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) aiming to increase power generation by maintaining light in the vicinity of a right angle are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for tightening split fastener (80B) ) To increase the amount of power generation by increasing friction width (3), the series of opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages for energy conservation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Compression heat recovery of internal air (28a) by heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, divided into multiple lengths of fasteners (80B) Various types of power generation methods in which a series of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with a lens (2d) as a set and equipped with friction loss reduction means (3) aiming at increased power generation are provided in multiple stages Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Compression heat recovery of internal air (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and power is generated by selecting a selected production length lens (2d) as long Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross section length lens (2d) The energy of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) The internal air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward, and the long lens (2d) that is insulated at the part approaching the vacuum Various power generation methods with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) that aim to increase power generation by maintaining sunlight in the vicinity of a right angle Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Compressive heat recovery with pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Compressive heat recovery with pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long lenses (2d) for tightening fasteners (80B). Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Friction loss reduction means that aims to increase power generation by increasing the length of the selective manufacturing long lens (2d) from the existing material by accelerating the compression heat recovery with the pump (1G) + vaporization explosive force in vacuum + gravitational acceleration vertically downward 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Compressed heat recovery with pump (1G) + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, and sunlight is concentrated to water (52b) tube with a selected section length lens (2d) from the existing lens section Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification housing prime + solar heater (2) internal air (28a) heat Compressive heat recovery with pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulating long lens (2d) and sunlight are maintained at right angles near the part near the vacuum. Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening with a fastener (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to reduce the loss of friction loss (3 ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated to the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Opposed Series Full-Boiled Rotor Wheel Drives Gas Turbine with Liquid Nitrogen and Liquid Oxygen + Drives Storage Battery Drive Various Cars + Solar Heater (2) Internal Air (28a) Heat Pump (1G) Compressed heat recovery + Vaporization explosive force + Gravity acceleration in vacuum Accelerate vertically downward, and heat insulation long lens (2d) and sunlight are kept at right angles near the part where power is generated Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the length of the split fastener (80B) tightening A power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the lens (2d) are provided in multiple stages. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, and divide and tighten the clamp (80B) Power generation with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by providing multiple long lenses (2d) as a set Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated with a compressed water heat exchanger (2Y) and water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward to select a production long lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation as long as possible. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the cross-sectional length lens (2d) selected from the existing lens cross section Power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing concentrated power generation in the water (52b) pipe with sunlight are provided in multiple stages Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heat the internal air (28a) with a compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in the vacuum vertically, and insulate the long lens ( 2d) and power generation with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining sunlight near right angle Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating the internal air (28a) with the compressed water heat exchanger (2Y) and heating the water (52b) + accelerating the vaporization explosive force + gravitational acceleration in the vacuum vertically, split fastener (80B) Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the long lens (2d) Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y), the water (52b) is heated + the vaporization explosive force + gravitational acceleration is further accelerated in the vertical downward direction, and divided into the fastening tools ( 80B) Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing multiple tightened long lenses (2d) as a set Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Internal air (28a) is compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected from existing materials Various energy conservation cycles of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine provided with the friction loss reduction means (3) aiming at increasing the amount of power generation with a long (2d) are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a section length from the existing lens section Multi-stage counter series full blade impeller water turbine / opposite series full blade propeller gas turbine equipped with friction loss reduction means (3) aiming to increase the amount of power generation concentrated on the water (52b) pipe with sunlight through the lens (2d) Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + vaporize the explosive force in the vacuum + accelerate the gravitational acceleration vertically downward to insulate the part close to the vacuum Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with a long lens (2d) and a friction loss reducing means (3) that aims to increase power generation by maintaining sunlight in the vicinity of a right angle Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically, and split the fastener (80B ) Increased width of tightening long lens (2d) to increase power generation amount Increased power generation amount Friction loss reduction means (3) equipped with opposed series full blade impeller water turbine / opposite series full blade impeller gas turbine in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y), the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and divided and tightened. (80B) A counter-series full-blade propulsion water turbine / opposite-series full-blade propulsion gas turbine provided with friction loss reducing means (3) that is provided with a plurality of tightened long lenses (2d) as a set to increase power generation amount Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected production length from existing materials Various types of energy conservation in a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase the amount of power generation with a long lens (2d) are provided in multiple stages. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and selected cross section from existing lens cross section Multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the amount of power generation concentrated on the water (52b) pipe with sunlight through the long lens (2d) Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is accelerated vertically downward, and the part close to the vacuum A counter-series full-blade bouncer water turbine and a counter-series full-blade bouncer gas turbine equipped with an insulating long lens (2d) and friction loss reducing means (3) aiming to increase power generation by maintaining sunlight in the vicinity of a right angle Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to divide the clamp (80B) and tighten the long lens (2d) Energy Conservation Cycle of Power Generation Method with Multiple Stages of Opposed-Series Full-Bloom Bouncer Water Turbine and Opposite-Series Full-Bloom Bouncer Gas Turbine with Friction Loss Reduction Means (3) Aiming to Increase Power Generation by Increasing the Width Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses for fastening the fastener (80B) Various energy of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine provided with the friction loss reducing means (3) provided with the set (2d) as a set to increase the power generation amount are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + Accelerate the vaporization explosive force + gravitational acceleration vertically in the vertical direction, select from existing materials Select the production length lens (2d) as long and generate electricity Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporization explosive force + gravity acceleration in vacuum to accelerate vertically downward, and select sunlight from the existing lens cross section with the selected cross section long lens (2d) Various types of energy conservation in a power generation method in which a water turbine (52b) is provided with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + solar heater (2) (2b) internal air (28a ) Heat the water (52b) with a compressed water heat exchanger (2Y) + add vaporization explosive force + gravity acceleration in vacuum, accelerate vertically downward, heat insulation long lens (2d) and sun Various energies of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) aiming to increase power generation by maintaining light in the vicinity of a right angle are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) The water (52b) is heated by the compressed water heat exchanger (2Y) + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the long lens (2d) of the divided fastener (80B) is tightened. Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) The water (52b) is heated with a compressed water heat exchanger (2Y) + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward and divided into multiple long lenses (80B) and tightened with a clamp (80B) 2d) are provided as a set, and various types of energy storage are provided for the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reduction means (3) aiming to increase the power generation amount are provided in multiple stages. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) Heat the water (52b) with a compressed water heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) Heat the water (52b) with the compressed water heat exchanger (2Y) + add the vaporization explosive force in the vacuum + accelerate the gravitational acceleration vertically downward, and water the sunlight from the existing lens section with the selected section length lens (2d) (52b) Various energy conservation cycles of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine having the friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the pipe are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed serial full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) internal air (28a) The water (52b) is heated with a compressed water heat exchanger (2Y) + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and the heat insulating long lens (2d) and sunlight are brought close to the vacuum Is maintained in the vicinity of a right angle, and various kinds of energy conservation are achieved in a power generation method provided with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) aiming to increase power generation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and long lens (2d) for split clamp (80B) tightening ) To increase the amount of power generation by increasing friction width (3), the series of opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages for energy conservation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + acceleration of gravitational acceleration further vertically downward, divided into multiple lengths of fastening tool (80B) Various types of power generation methods in which a series of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with a lens (2d) as a set and equipped with friction loss reduction means (3) aiming at increased power generation are provided in multiple stages Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + Gravitational acceleration is accelerated in the vertical downward direction in vacuum, and power generation is performed by selecting a selected long lens (2d) from an existing material. Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is accelerated vertically downward, and sunlight is selected from the existing lens cross section with a selected cross-section long lens (2d) The energy of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and heat insulating long lens (2d) is close to the vacuum. Various power generation methods with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) that aim to increase power generation by maintaining sunlight in the vicinity of a right angle Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and split fastener (80B) is tightened Power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing power generation amount by increasing the width of the long lens (2d) is provided in multiple stages. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided and clamped (80B) A multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase power generation by providing a plurality of attached long lenses (2d) as a set are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to select from existing materials Long lens (2d) The combined energy storage cycle engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to select a long lens (2d) ) In the multi-stage power generation with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming at increasing concentrated power generation amount in the water (52b) pipe with sunlight Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and a long lens for heat insulation at the part approaching the vacuum (2d) and a series of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for maintaining the sunlight in the vicinity of a right angle and increasing the amount of power generation Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating of water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + acceleration of gravitational acceleration vertically downward, split fastener (80B) tightening Power generation provided with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + acceleration of gravitational acceleration is added vertically downward and divided into fasteners (80B) A multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing multiple tightening long lenses (2d) as a set Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to select from existing materials long lens (2d ) And a series of various energy conservation cycle coalescence engines with a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided. . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, select cross-sectional length lens ( In 2d), the opposed series full bucket impeller water turbine and the opposed series full bucket propeller gas turbine equipped with friction loss reduction means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe in 2d) are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and insulation is long at the part approaching vacuum Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining the lens (2d) and sunlight near right angles Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) which increases the power generation amount by increasing are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with a fastener (80B) Combined with various energy conservation cycles of a power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming to increase power generation by making the selected long lens (2d) long from existing materials Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Water (52b) is heated with compressed air calorie (28b) + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward, and sunlight is converted into water (52b) from the existing lens cross section with a selected cross section long lens (2d). ) Various energy conservation cycle coalescence engine of power generation method provided with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller water turbine equipped with friction loss reducing means (3) aiming at increased concentrated power generation amount in the pipe . 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Vaporization explosive force in gravity + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight at right angle Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) that is maintained in the vicinity and aims to increase power generation amount organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Heat water (52b) with air heat (28b) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Then, various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming to increase the power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Heat the water (52b) with the amount of air heat (28b) + vaporize explosive force in vacuum + accelerate the gravitational acceleration vertically downward, and divide the multi-long lens (2d) tightened with the fastener (80B) Combined engine of various energy conservation cycle of power generation method provided with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller water turbine equipped with friction loss reducing means (3) provided as a set to increase power generation amount . 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Air (28b) heats water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and friction is aimed at increasing power generation by selecting a long lens (2d) to be selected from existing materials Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Water (52b) is heated with air calorie (28b) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and sunlight is water (52b) from the existing lens cross section with a selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing concentrated power generation in the pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery drive to make all kinds of automobiles prime + solar heater (2) (2b) compression of internal air heat quantity Heat water (52b) with air calorie (28b) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle at the part close to vacuum The combined energy storage cycle engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) to maintain the power generation and to increase the power generation amount . 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravity acceleration further downward vertically, long lens (80B) tightening split clamp (80B) 2d) Various energies of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming at increasing the amount of power generation by increasing the width of 2d) are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration further downward vertically, divided into multiple fasteners (80B) In a power generation method in which a long lens (2d) is provided as a set and an opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with friction loss reduction means (3) aiming to increase power generation is provided in multiple stages. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection and combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to make the selected production length lens (2d) long Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Water (52b) is heated by compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration is further accelerated vertically downward in the vacuum, and the sun is selected from the existing lens cross section with a selected cross section long lens (2d) Various kinds of power generation methods in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe are provided in multiple stages. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat resistant material (2A) heat insulating material (2c) solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to insulate long lens (2d) near the vacuum Power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation by maintaining solar power and sunlight near right angles Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split fastener (80B) tightened Power generation provided with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further vertically downward, split and tightening tool (80B) A multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing multiple tightening long lenses (2d) as a set Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heat water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to select from existing materials long lens (2d) ) And a series of various energy conservation cycle coalescence engines with a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided. . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward to select a cross-sectional length lens ( In 2d), the opposed series full bucket impeller water turbine and the opposed series full bucket propeller gas turbine equipped with friction loss reduction means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe in 2d) are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration vertically downward, long heat insulation at the part approaching the vacuum Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining the lens (2d) and sunlight near right angles Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating of water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, split fastener (80B) tightened A series of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the attached long lens (2d) are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Water (52b) is heated by compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration is further accelerated vertically downward in the vacuum and divided into fasteners (80B) ) Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing multiple tightened long lenses (2d) as a set Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and selected from existing materials Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation with 2d) being long organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, select cross-section long lens from existing lens cross-section In (2d), a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount in the water (52b) pipe in (2d) Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat insulation is applied at the part approaching the vacuum Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with long lens (2d) and friction loss reduction means (3) aiming to increase power generation by maintaining sunlight near right angle Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( 28b) heating water (52b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the power generation . 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( 28b) water (52b) is heated + fuel is injected and burned + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening (80B) ) As a set and various energy conservation cycles of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( 28b) water (52b) is heated + fuel injected and combusted + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward to increase the amount of power generation by making the selected long lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( Water (52b) is heated in 28b) + fuel injection combustion + vaporization explosive force + gravity acceleration in vacuum is accelerated vertically downward, and sunlight is converted to water (2d) from the existing lens cross section with the selected cross section long lens (2d). 52b) Combining various energy conservation cycles of a power generation method in which a multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing concentrated power generation in the pipe is provided. organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Pushwheel Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified House Prime + Solar Heater (2) (2b) Compressed Air Calorie ( 28b) heating water (52b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sunlight in the part close to the vacuum Various energy conservation cycles of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) that are maintained in the vicinity of a right angle and aim to increase power generation are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) To heat water (52b) + fuel injection and combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) which increases the power generation amount by increasing are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) Heating water (52b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) Combined with various energy conservation cycles of a power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) Heating water (52b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) To heat water (52b) + fuel injection and combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and sunlight is converted to water (52b) from the existing lens cross section by a selected cross section long lens (2d) ) Various energy conservation cycle coalescence engine of power generation method provided with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller water turbine equipped with friction loss reducing means (3) aiming at increased concentrated power generation amount in the pipe . 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heater (2) (2b) compressed air heat (28b ) Heating water (52b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are perpendicular Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) that is maintained in the vicinity and aims to increase power generation amount organ. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Increase to maximum force + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and to increase the amount of power generated Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Increase power to maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of a long lens (2d) for tightening the fastener (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Friction loss reduction means (3) aiming to increase the amount of power generation by increasing the length of the selected production length lens (2d) from existing materials by accelerating the vaporization explosive force + gravitational acceleration in vacuum additionally downward in the vacuum Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Increase the force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) thermal insulation material (2c) vaporization explosion with solar heater (2) including half-cylinder outer box (77B) Increased power maximum + Vaporization explosion force + Gravitational acceleration in vacuum Accelerates vertically downward, maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to the vacuum to increase power generation Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increase vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increase the vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening the fastener (80B) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increase the vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the frictional loss reduction means aiming to increase the power generation amount by increasing the selected production length lens (2d) from the existing material ( 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increase vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated to the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching to absolute 0 degree + solar thermal augmentation suspension bridge (2b) solar heater (2) ) Increase vaporization explosive force to the maximum + Vapor explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, keeping the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase vaporization explosive power to the maximum in + Add vaporization explosive force in vacuum + Gravitational acceleration to the vertical downward direction to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase vaporization explosive force to the maximum in + Add vaporization explosive force in vacuum + Gravitational acceleration to additional vertical acceleration, split and provide multiple long lens (2d) with tightening tool (80B) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase vaporization explosive force to the maximum in + + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and friction loss reduction means aiming at increased power generation by making the selected production length lens (2d) long from existing materials (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase vaporization explosive force to the maximum in + Add vapor explosive force in vacuum + Gravitational acceleration to accelerate vertically downward, and concentrate sunlight on water (52b) tube with selected cross-sectional length lens (2d) from existing lens cross section Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degrees absolute + solar heat augmented suspension bridge (2b) solar heater that enables vacuum at joint (80A) ( 2) Increase vaporization explosive force to the maximum in + Accelerate vaporization explosive force + gravitational acceleration in vacuum vertically and maintain heat insulating long lens (2d) and sunlight in the vicinity of right angle near the vacuum. Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Friction loss reduction means for increasing the power generation amount by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the vaporization explosive force in the vacuum + acceleration of gravity downward in the vacuum 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) with clamps (80B) to reduce friction loss to increase power generation Various energy storage cycle coalescing engines of power generation method provided with multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with means (3). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the opposite series all equipped with friction loss reduction means (3) aiming to increase the power generation amount by lengthening the selected production length lens (2d) from existing materials Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and friction loss reduction means aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heater (2) increases vaporization explosive power to maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat loss is reduced by maintaining heat insulation long lens (2d) and sunlight in the vicinity of right angle near the vacuum. Various energy storage cycle coalescing engines of power generation method provided with multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with means (3). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + Friction loss reducing means (3) that accelerates vaporization explosive force + gravitational acceleration in a vacuum in the vacuum and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount (3 ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた狙う各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + Vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and divided into multiple sets of multiple long lenses (2d) for tightening the fastener (80B) to increase power generation and reduce friction loss ( 3) Various energy conservation cycle coalescing engines aiming at providing multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + Opposite series full motion equipped with friction loss reduction means (3) aiming to increase power generation amount by increasing the length of the selected production length lens (2d) from existing materials by accelerating vaporization explosive force + gravity acceleration in vacuum vertically Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + Friction loss reduction means for accelerating vaporization explosive force + gravitational acceleration in vacuum vertically downward, and aiming to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) ( 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar gas heater (2) increases vaporization explosive power to maximum + Friction loss reduction means aiming to increase power generation by accelerating vaporization explosive force + gravitational acceleration in vacuum vertically and maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerating and increasing the width of the long lens (2d) for tightening the split fastener (80B), and the friction loss reduction means (3) aiming to increase the power generation amount. Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Opposed in-series full blade impeller water turbine provided with friction loss reducing means (3) for accelerating and dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerate, select series long blade bouncer water turbine / opposite series full blade bounce gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by lengthening selected production length lens (2d) from existing materials Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerating the existing series of lenses from a cross-section lens (2d) to a water (52b) tube with sunlight (52b). Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward An opposed series full blade impeller water turbine provided with frictional loss reduction means (3) for accelerating and maintaining a heat insulating long lens (2d) near the right angle in the vicinity of vacuum and increasing the amount of power generation by maintaining sunlight in the vicinity of a right angle・ Various types of power generation methods including opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with multiple stages of friction loss reduction means (3) provided with opposed series full blade impeller gas turbines in multiple stages Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerating and increasing the width of the long lens (2d) for tightening the split fastener (80B), and the friction loss reduction means (3) aiming to increase the power generation amount. Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Opposed in-series full blade impeller water turbine provided with friction loss reducing means (3) for accelerating and dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerate, select series long blade bouncer water turbine / opposite series full blade bounce gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by lengthening selected production length lens (2d) from existing materials Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerating the existing series of lenses from a cross-section lens (2d) to a water (52b) tube with sunlight (52b). Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven even with liquid nitrogen or liquid oxygen + surface floating solar heater (2) + vaporization explosive force in vacuum + gravity acceleration added vertically downward An opposed series full blade impeller water turbine provided with frictional loss reduction means (3) for accelerating and maintaining a heat insulating long lens (2d) near the right angle in the vicinity of vacuum and increasing the amount of power generation by maintaining sunlight in the vicinity of a right angle・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward The opposed series full blade impeller water turbine equipped with a friction loss reducing means (3) that increases the width of the long lens (2d) of the split fastening tool (80B) and increases the power generation amount Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward The counter-series full blade impeller water equipped with friction loss reducing means (3) for accelerating, dividing and providing a plurality of long lenses (2d) for fastening the fastener (80B) and aiming to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward Accelerating to the existing series, the production length lens (2d) is made long and the friction loss reduction means (3) aiming to increase the amount of power generation is provided. Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward The opposed series full blade impeller water turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to the water (52b) tube with sunlight selected from the existing lens cross section with a lens (2d) having a selected cross section length.・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration added vertically downward Accelerating to a near-vacuum long lens (2d) and the opposed in-series full blade impeller water equipped with friction loss reduction means (3) aiming to increase the amount of power generation by maintaining sunlight in the vicinity of a right angle in the vicinity of the vacuum Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + The opposing series all equipped with a friction loss reducing means (3) for accelerating the gravitational acceleration downward and increasing the width of the long lens (2d) of the split fastener (80B) to increase the power generation amount. Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Friction loss reduction means aiming at increased power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the recovery + vaporization explosive force + gravity acceleration in vacuum vertically (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) heats water (52b) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Fuel injection and combustion + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward, increasing the width of the long lens (2d) for tightening the split fastener (80B) and increasing the amount of power generation Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + Opposite equipped with friction loss reducing means (3) for accelerating gravitational acceleration vertically and dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Friction loss aiming to increase power generation by collecting and collecting the vaporization explosive force in vacuum + gravitational acceleration further vertically downward and dividing and providing multiple long lenses (2d) with fasteners (80B) Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple sets of a long lens (2d) for fastening a fastener (80B) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Heating water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, divided into multiple long lenses (2d) for fastening fasteners (80B), and a set of power generation Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + An opposed series full blade impeller water turbine / opposed series equipped with friction loss reducing means (3) that accelerates the gravitational acceleration further downward and makes the selected production length lens (2d) longer from existing materials to increase power generation Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Recovery + Vacuum vaporization force + Gravitational acceleration is further accelerated vertically downward, and the opposite series is equipped with friction loss reduction means (3) aiming to increase the power generation amount by increasing the selected production length lens (2d) from existing materials. Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to reduce the loss of friction by increasing the length of the selected production length lens (2d) from the existing material to increase power generation (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Friction loss reduction means (3) that heats water (52b) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) Friction loss reduction means (3) aiming to increase power generation by increasing the length of the selective production long lens (2d) from existing materials by accelerating the vaporization explosive force + gravitational acceleration in the vacuum vertically ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + Opposite series equipped with friction loss reduction means (3) for accelerating gravitational acceleration vertically downward and selecting concentrated lens length (2d) from existing lens cross section to water (52b) pipe to increase concentrated power generation amount Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Friction loss reduction aiming to increase the amount of concentrated power generation from the existing lens cross-section to the water (52b) tube with the collection cross-section long lens (2d) by accelerating recovery + vaporization explosive force + gravity acceleration in vacuum Various energy storage cycle coalescing engines of power generation method provided with multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with means (3). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is increased to the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d). Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated to the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + Opposite equipped with frictional loss reduction means (3) aiming to increase the amount of power generation by accelerating gravitational acceleration vertically downward and keeping the heat insulating long lens (2d) near the right angle in the vicinity of the vacuum Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Friction loss that aims to increase power generation by recovering + vaporization explosive force + vacuum acceleration in vacuum and accelerating vertically downward and maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to keep the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Heating water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of the vacuum. Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the part near the vacuum for power generation Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Compressed heat recovery of internal air + Vaporization explosive power in vacuum + Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming at the same maximum water generation by accelerating gravitational acceleration downward Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Surface floating type solar heater (2) Internal air (28a) is compressed with heat pump (1G) Recovery + Vaporization explosion force in vacuum + Gravitational acceleration Accelerated vertically downward, Fluctuation loss reduction means (3) aiming at the same maximum water generation amount Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + surface floating solar heater (2) (2b) internal air (28a) compressed water heat exchanger ( 2Y) Heating water (52b) + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward, and opposed series full blades equipped with friction loss reduction means (3) aiming at the same water volume maximum power generation amount Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make all kinds of ships prime + water surface floating type solar heater (2) (2b) with internal air calorie compressed air calorie (28b) Heating water (52b) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and opposed series full blade impeller water turbine equipped with friction loss reduction means (3) aiming at the same maximum water generation amount・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Water surface type solar heater (2) (2b) Water with compressed air calorie (28b) (52b) + Injecting and burning fuel + Vaporization explosion force in vacuum + Gravity acceleration is further accelerated vertically downward to achieve the same water volume and maximum power generation. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity Opposite series full motion equipped with friction loss reducing means (3) for accelerating the acceleration further downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity Opposed series with friction loss reducing means (3) for accelerating acceleration vertically downward, dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity Accelerating the acceleration further vertically downward, selecting a long lens (2d) from the existing material, and increasing the amount of power generation with a long friction lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity Accelerating the acceleration vertically further downward, and using a cross-sectional length lens (2d) from the existing lens cross section, the sunlight (water) to the water (52b) tube is equipped with friction loss reduction means (3) that aims to increase the concentrated power generation amount. Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差1200m増大+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing seawater surface temperature by 7 degrees + head rise by 1200m with pump (1H) + surface-floor type solar heater (2) + vaporization explosive force in vacuum + gravity Opposite series equipped with friction loss reduction means (3) aiming to increase the amount of power generation by accelerating the acceleration further downward and keeping the heat insulating long lens (2d) near the right angle in the vicinity of the vacuum and sunlight. Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and to reduce the friction loss aiming to increase power generation (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) and friction loss aiming to increase power generation Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + In-line series equipped with friction loss reduction means (3) aiming to increase the power generation amount by increasing the length of the selected production length lens (2d) from existing materials by accelerating the vaporization explosive force + gravitational acceleration in vacuum vertically Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is diverted from the existing lens cross section to the water (52b) pipe with the selected cross-section long lens (2d) to reduce the frictional loss Various energy storage cycle coalescing engines of power generation method provided with multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with means (3). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) half-cylinder outer box (77B) including surface floating type solar heater (2 ) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and friction loss is aimed at increasing power generation by maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide multiple long lenses (2d) for tightening fasteners (80B) to increase power generation Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and friction loss reduction means (3) is aimed at increasing power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle coalescing engines of power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the concentrated power generation amount is increased from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Pushwheel Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Heat-Increasing Suspension Bridge (2b) Water Floating Type Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to vacuum to increase power generation Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Light heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and friction loss reduction means (3) aiming to increase power generation by lengthening the selected production length lens (2d) from existing materials Various energy storage cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is increased from the existing lens cross section to the water (52b) tube with the selected cross-section long lens (2d). Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar Heat-Increasing Suspension Bridge (2b) Water Surface Floating Type Solar Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum. Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Friction loss reduction means (3) aiming to increase the amount of power generation by accelerating the vaporization explosive force + gravitational acceleration vertically downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines of power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Friction loss reduction means (3) which accelerates vaporization explosive force + gravitational acceleration vertically downward, divides and provides a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and an opposed series full blade impeller equipped with friction loss reduction means (3) aiming to increase power generation by lengthening the selected production length lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Friction loss reduction means (3) aiming to increase the amount of concentrated power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward, and using the selected lens length lens (2d) from the existing lens cross section to the water (52b) tube Various energy storage cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series all-wheel impeller gas turbine exhaust turbine compressed air temperature close to absolute 0 ° + full electrification house prime + water surface floating type solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated in the vertical direction, and the friction loss reducing means (3) aiming to increase the amount of power generation by keeping the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven to make all kinds of automobiles + surface floating type solar heater (2) + in vacuum Equipped with friction loss reducing means (3) that accelerates vaporization explosive force + gravitational acceleration vertically downward and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven to make all kinds of automobiles + surface floating type solar heater (2) + in vacuum Friction loss reduction means (3) for accelerating the vaporization explosive force + gravitational acceleration vertically downward, dividing and providing a set of multiple long lenses (2d) for fastening the fastener (80B) to increase power generation Various energy storage cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven to make all kinds of automobiles + surface floating type solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and the opposite series full blade impeller water equipped with friction loss reduction means (3) aiming to increase the power generation amount by lengthening the selected production length lens (2d) from existing materials Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven to make all kinds of automobiles + surface floating type solar heater (2) + in vacuum Friction loss reduction means (3) aiming to increase the amount of concentrated power generation by accelerating the vaporization explosive force + gravitational acceleration vertically downward and using the selected lens length lens (2d) from the existing lens cross section to the water (52b) tube Various energy storage cycle coalescing engines of power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven to make all kinds of automobiles + surface floating type solar heater (2) + in vacuum Friction loss reduction means (3) aiming to increase the amount of power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward and maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum Various energy storage cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) + Friction loss reduction means for increasing the power generation amount by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the vaporization explosive force in the vacuum + acceleration of gravity downward in the vacuum 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) with clamps (80B) to reduce friction loss to increase power generation Various energy storage cycle coalescing engines of power generation method provided with multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with means (3). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the opposite series all equipped with friction loss reduction means (3) aiming to increase the power generation amount by lengthening the selected production length lens (2d) from existing materials Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and friction loss reduction means aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat loss is reduced by maintaining heat insulation long lens (2d) and sunlight in the vicinity of right angle near the vacuum. Various energy storage cycle coalescing engines of power generation method provided with multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with means (3). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and to increase the amount of power generated Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation. Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Type Solar Heating (2) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and the frictional loss reduction means (3) is aimed at increasing the amount of power generation by increasing the length of the selected production length lens (2d) from existing materials. Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat generation is increased by maintaining a long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide multiple long lenses (2d) for tightening fasteners (80B) to increase power generation Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and friction loss reduction means (3) is aimed at increasing power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle coalescing engines of power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the concentrated power generation amount is increased from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to vacuum to increase power generation Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum Equipped with friction loss reducing means (3) that accelerates vaporization explosive force + gravitational acceleration vertically downward and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum Friction loss reduction means (3) for accelerating the vaporization explosive force + gravitational acceleration vertically downward, dividing and providing a set of multiple long lenses (2d) for fastening the fastener (80B) to increase power generation Various energy storage cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and the opposite series full blade impeller water equipped with friction loss reduction means (3) aiming to increase the power generation amount by lengthening the selected production length lens (2d) from existing materials Combined engine of various energy conservation cycles of the power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum Friction loss reduction means (3) aiming to increase the amount of concentrated power generation by accelerating the vaporization explosive force + gravitational acceleration vertically downward and using the selected lens length lens (2d) from the existing lens cross section to the water (52b) tube Various energy storage cycle coalescing engines of power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification house prime + surface floating solar heater (2) + in vacuum Friction loss reduction means (3) aiming to increase the amount of power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward and maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum Various energy storage cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum Friction loss reduction means (3) aiming to increase the amount of power generation by accelerating explosive force + gravitational acceleration vertically downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum Friction loss reduction means (3) for accelerating explosive force + gravitational acceleration vertically downward, dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation amount Various energy storage cycle coalescing engines of power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum An opposed series full blade impeller water turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating explosive force + gravitational acceleration vertically downward and making the selected production length lens (2d) long from existing materials・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum Friction loss reduction means (3) for accelerating explosive force + gravitational acceleration vertically downward and aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation Opposite series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + accumulating battery-powered various automobiles + surface floating solar heater (2) + vaporization in vacuum Friction loss reduction means (3) aiming to increase the amount of power generation by accelerating explosive force + gravitational acceleration vertically downward, keeping the long lens (2d) of heat insulation near the right angle and the sunlight near the right angle Various energy storage cycle coalescing engines of power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of long lenses (2d) for fastening fasteners (80B) and power generation amount Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Friction loss reduction means (3) aiming to increase the power generation amount by increasing the length of the selected production length lens (2d) from existing materials by accelerating the internal air by compressing heat recovery + vaporizing explosive force in vacuum + gravity acceleration Various energy storage cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to vacuum. Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) The internal air is recovered by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward and divided into a set of multiple long lenses (2d) for tightening fasteners (80B) Various energy storage cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) that aims to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal heat by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration Accelerate vertically downward to reduce friction loss by increasing the production length lens (2d) from existing materials to increase power generation Various energy storage cycle coalescing engines of power generation method provided with multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with means (3). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is converted into a water (52b) tube from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescing engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased concentrated power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle near the vacuum Then, various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming to increase the power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided and set with multiple length lens (2d) with clamp (80B) Various energy conservation cycle coalescence engines of the power generation method in which the opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with the friction loss reducing means (3) aiming to increase the power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Recover internal heat by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, and friction loss is aimed at increasing power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with a selected cross section long lens (2d) to water (52b) tube Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased concentrated power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Compressed heat recovery of internal air + Vaporization explosion force in vacuum + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight near right angle Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for maintaining and increasing power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Friction loss reduction aiming at increased power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating heat recovery + vaporization explosive force + gravity acceleration in vacuum vertically Various energy storage cycle coalescing engines of power generation method provided with multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with means (3). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Friction aiming to increase power generation by heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration further vertically downward, split and set with multiple long lens (2d) tightening fastener (80B) Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the opposite is equipped with friction loss reduction means (3) aiming to increase the power generation amount by making the selected production length lens (2d) long from existing materials Various energy storage cycle coalescing engines of power generation method with multiple stages of series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Friction loss aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) by accelerating heat recovery + vaporization explosive force + gravitational acceleration in vacuum Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation series full blade impeller gas turbine exhaust compressed air temperature close to 0 degree + full electrification house prime + water surface type solar heater (2) compress internal air Heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat-resistant long lens (2d) and sunlight are kept near right angle in the part close to the vacuum, friction aiming at increased power generation Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Friction loss reduction means aiming at increased power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the recovery + vaporization explosive force + gravity acceleration in vacuum vertically (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Friction loss aiming to increase power generation by collecting and collecting the vaporization explosive force in vacuum + gravitational acceleration further vertically downward and dividing and providing multiple long lenses (2d) with fasteners (80B) Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Recovery + Vacuum vaporization force + Gravitational acceleration is further accelerated vertically downward, and the opposite series is equipped with friction loss reduction means (3) aiming to increase the power generation amount by increasing the selected production length lens (2d) from existing materials. Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Friction loss reduction aiming to increase the amount of concentrated power generation from the existing lens cross-section to the water (52b) tube with the collection cross-section long lens (2d) by accelerating recovery + vaporization explosive force + gravity acceleration in vacuum Various energy storage cycle coalescing engines of power generation method provided with multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with means (3). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery drive to make various automobiles prime + surface floating solar heater (2) compression heat inside air Friction loss that aims to increase power generation by recovering + vaporization explosive force + vacuum acceleration in vacuum and accelerating vertically downward and maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compress internal heat (28a) with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is accelerated further vertically downward, and the long lens (2d) of split clamp (80B) tightens Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width organ. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compress internal heat (28a) with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (80B) tightened ( 2d) are provided as a set, and various types of energy storage are provided for the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reduction means (3) aiming to increase the power generation amount are provided in multiple stages. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compressed heat recovery of internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compress internal heat (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is watered from the existing lens cross section with the selected cross section long lens (2d) (52b) Various energy conservation cycles of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine having the friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the pipe are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Compress internal heat (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, heat insulating long lens (2d) and sunlight Is maintained in the vicinity of a right angle, and various kinds of energy conservation are achieved in a power generation method provided with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) aiming to increase power generation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + Long lens for fastening split fastener (80B) by accelerating vaporization explosive force + gravitational acceleration vertically downward in vacuum Various types of power generation methods in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine provided with friction loss reducing means (3) for increasing the amount of power generation by increasing the width of (2d) are provided in multiple stages. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + compressive heat recovery + vaporization explosive force + gravity acceleration in vacuum vertically downward, and divide and tighten fastener (80B) A power generation method in which a plurality of long-length lenses (2d) are provided as a set and an opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with friction loss reducing means (3) aiming to increase power generation in multiple stages is provided. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum vertically in the vacuum to select and manufacture a long lens (2d) from existing materials Various energy storage cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation amount. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + vaporization explosive force + gravitational acceleration in vacuum in the vertical direction, and select cross-section long lens (2d) from existing lens cross section A power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount in sunlight (52b) pipes are provided. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) Recover internal air (28a) with heat pump (1G) + heat generated by compression + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, heat insulating long lens (2d ) And sunlight in the vicinity of a right angle, and a friction loss reducing means (3) aiming at an increase in the amount of power generation is provided. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the length of split fastener (80B) tightening A power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the lens (2d) are provided in multiple stages. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided and clamped (80B) Various energy storage cycle coalescing engines that use a plurality of long lenses (2d) as a set to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Internal air (28a) is compressed with heat pump (1G) + Explosive force of vaporization + Gravitational acceleration in vacuum is further accelerated vertically downward, and selected production length lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation as long as possible. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to select a cross-section long lens (2d) from the existing lens cross section Power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing concentrated power generation in the water (52b) pipe with sunlight are provided in multiple stages Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) Recover internal air (28a) with heat pump (1G) + Compressive heat recovery + Vaporization explosive force + Gravity acceleration in vacuum vertically and heat insulation long lens ( 2d) and power generation with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining sunlight near right angle Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) With a heat pump (1G) to recover the compression heat + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) With a heat pump (1G) + evacuated explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided to set a multi-lens (2d) with a clamp (80B) Various energy conservation cycle coalescence engines of the power generation method in which the opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with the friction loss reducing means (3) aiming to increase the power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) Is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase the amount of power generation friction loss Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) With heat pump (1G) + compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, sunlight from the existing lens cross section with a selected cross section long lens (2d) water (52b) tube Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased concentrated power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) Internal Air (28a ) With a heat pump (1G) + Compressive heat recovery + Vaporization explosive force + Gravity acceleration in the vertical direction Accelerate vertically downward, heat insulation long lens (2d) and sunlight near right angle Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for maintaining and increasing power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) The heat pump (1G) recovers compression heat + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening with fastener (80B) Various energy storage cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) that aims to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to reduce friction loss aiming at increasing power generation by selecting a long lens (2d) to be selected from existing materials Various energy storage cycle coalescing engines of power generation method provided with multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with means (3). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is converted into a water (52b) tube from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescing engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased concentrated power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full blade driven vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerate vertically downward to maintain heat insulation long lens (2d) and sunlight near right angle Then, various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming to increase the power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically, and tighten the split fastener (80B) A series of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the attached long lens (2d) are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and divided into fasteners (80B). ) Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing multiple tightened long lenses (2d) as a set Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heat internal water (28a) with compressed water heat exchanger (2Y) + water (52b) + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, select from existing materials Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation with 2d) being long organ. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is accelerated vertically downward, and the selected cross section length lens is selected from the existing lens cross section. In (2d), a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount in the water (52b) pipe in (2d) Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + vaporize the explosive force in gravity + accelerate the gravitational acceleration vertically downward. Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with long lens (2d) and friction loss reduction means (3) aiming to increase power generation by maintaining sunlight near right angle Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) An opposed series full blade propeller water turbine / opposed series full bucket propeller gas turbine provided with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) for tightening Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + acceleration of gravity is further accelerated vertically downward and divided and tightened A counter-series full-blade bouncer water turbine / opposite-series full-blade bouncer gas equipped with a friction loss reducing means (3) that is provided with a set of a plurality of long lenses (2d) tightened with an attachment (80B) to increase power generation amount Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Internal air (28a) is compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward and selected from existing materials Various types of power generation methods in which a multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming at increased power generation with a long production lens (2d) is provided. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) + heat the water (52b) + vaporize explosive force in vacuum + accelerate the gravitational acceleration vertically downward from the cross section of the existing lens Opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight through the selected section long lens (2d) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) The internal air (28a) was heated with the compressed water heat exchanger (2Y) and the water (52b) was heated + vaporized explosive force in the vacuum + gravitational acceleration was accelerated vertically downward to bring it closer to the vacuum A counter-series full-blade bouncer water turbine / opposite-series full-blade bouncer gas equipped with a long lens (2d) that is thermally insulated and a friction loss reduction means (3) that aims to increase power generation by maintaining sunlight in the vicinity of a right angle Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards, split tightening Opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) tightening the tool (80B) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration is further accelerated vertically downward and divided. A counter-series full blade impeller water turbine / opposite series full-blade propeller wheel provided with a friction loss reducing means (3) provided with a set of multiple long lenses (2d) for tightening a fastener (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials A power generation method in which an opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase the amount of power generation with a long selection manufacturing long lens (2d) is provided in multiple stages. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, cross-section of existing lens The opposed series full blade impeller water turbine / opposed serial full blade impeller gas equipped with friction loss reducing means (3) that aims to increase the amount of power generation concentrated in the water (52b) pipe with sunlight selected from the long lens (2d) Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heat internal air (28a) with compressed water heat exchanger (2Y) + Heat water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to bring it closer to vacuum A counter-series full-blade bouncer water turbine / opposite series full-blade bouncer equipped with a long lens (2d) for heat insulation at the part and friction loss reduction means (3) for maintaining the sunlight in the vicinity of a right angle and aiming at an increase in power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heating the air (28a) with the compressed water heat exchanger (2Y) + heating the water (52b) + accelerating the vaporization explosive force + gravitational acceleration vertically downward, and a long lens for tightening the split fastener (80B) Various types of power generation methods in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine provided with friction loss reducing means (3) for increasing the amount of power generation by increasing the width of (2d) are provided in multiple stages. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, and divide and tighten the fastener (80B) A power generation method in which a plurality of long-length lenses (2d) are provided as a set and an opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with friction loss reducing means (3) aiming to increase power generation in multiple stages is provided. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the air (28a) with the compressed water heat exchanger (2Y) + heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, select the existing material from the long lens (2d) Various energy storage cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation amount. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the air (28a) with the compressed water heat exchanger (2Y) + heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, and select the cross-section length lens (2d) from the existing lens cross section A power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount in sunlight (52b) pipes are provided. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the air (28a) with the compressed water heat exchanger (2Y) + heat the water (52b) + vaporize explosive force + gravitational acceleration in the vacuum vertically, and insulate the long lens (2d) near the vacuum ) And sunlight in the vicinity of a right angle, and a friction loss reducing means (3) aiming at an increase in the amount of power generation is provided. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) Compressed water heat exchanger (2Y) heats water (52b) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, and long lens (80B) tightening split clamp (80B) 2d) Various energies of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming at increasing the amount of power generation by increasing the width of 2d) are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) is compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, divided into multiple fasteners (80B) In a power generation method in which a long lens (2d) is provided as a set and an opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with friction loss reduction means (3) aiming to increase power generation is provided in multiple stages. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) Compressed water heat exchanger (2Y) heats water (52b) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to make the selected production length lens (2d) long Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) is compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward, and the selected cross section long lens (2d) is used for the sun. Various kinds of power generation methods in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe are provided in multiple stages. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air (28a) Compressed water heat exchanger (2Y) heats water (52b) + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward to insulate long lens (2d) near the vacuum Power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation by maintaining solar power and sunlight near right angles Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward, and length of split fastener (80B) tightening A power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the lens (2d) are provided in multiple stages. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided and clamped (80B) Power generation with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by providing multiple long lenses (2d) as a set Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to select a manufacturing long lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation as long as possible. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Water (52b) is heated by compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward to select a cross-section long lens (2d) from the existing lens cross section Power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing concentrated power generation in the water (52b) pipe with sunlight are provided in multiple stages Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in gravity + gravitational acceleration is accelerated vertically downward, and heat insulating long lens ( 2d) and power generation with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining sunlight near right angle Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Unit (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the long lens (2d) Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into fasteners ( 80B) Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing multiple tightened long lenses (2d) as a set Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select from existing materials Various energy conservation cycles of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine provided with the friction loss reduction means (3) aiming at increasing the amount of power generation with a long (2d) are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + additional acceleration of gravity acceleration downward, select cross section length from existing lens cross section Multi-stage counter series full blade impeller water turbine / opposite series full blade propeller gas turbine equipped with friction loss reduction means (3) aiming to increase the amount of power generation concentrated on the water (52b) pipe with sunlight through the lens (2d) Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward to insulate the part close to vacuum Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with a long lens (2d) and a friction loss reducing means (3) that aims to increase power generation by maintaining sunlight in the vicinity of a right angle Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, split fastener (80B ) Increased width of tightening long lens (2d) to increase power generation amount Increased power generation amount Friction loss reduction means (3) equipped with opposed series full blade impeller water turbine / opposite series full blade impeller gas turbine in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Accelerating gravitational acceleration vertically downward, split and tightening tool (80B) A counter-series full-blade propulsion water turbine / opposite-series full-blade propulsion gas turbine provided with friction loss reducing means (3) that is provided with a plurality of tightened long lenses (2d) as a set to increase power generation amount Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Additional vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected production length from existing materials Various types of energy conservation in a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase the amount of power generation with a long lens (2d) are provided in multiple stages. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected cross section from existing lens cross section Multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the amount of power generation concentrated on the water (52b) pipe with sunlight through the long lens (2d) Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, at the part close to vacuum A counter-series full-blade bouncer water turbine and a counter-series full-blade bouncer gas turbine equipped with an insulating long lens (2d) and friction loss reducing means (3) aiming to increase power generation by maintaining sunlight in the vicinity of a right angle Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heating water (52b) with compressed air calorie (28b) of air calorie + vaporizing explosive force in vacuum + acceleration of gravitational acceleration vertically downward, long lens (2d) for tightening split fastener (80B) Energy Conservation Cycle of Power Generation Method with Multiple Stages of Opposed-Series Full-Bloom Bouncer Water Turbine and Opposite-Series Full-Bloom Bouncer Gas Turbine with Friction Loss Reduction Means (3) Aiming to Increase Power Generation by Increasing the Width Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heating water (52b) with compressed air calorie (28b) of air heat + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward and divided into multiple long lenses for fastening (80B) Various energy of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine provided with the friction loss reducing means (3) provided with the set (2d) as a set to increase the power generation amount are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat of water (52b) with compressed air calorie (28b) of air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and selected from existing materials Select production length lens (2d) as long and generate power Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heat the water (52b) with the compressed air calorie (28b) of the air calorie + Add vaporization explosive force in the vacuum + Accelerate the gravitational acceleration vertically downward, and select sunlight from the existing lens cross section with the selected cross section long lens (2d) Various types of energy conservation in a power generation method in which a water turbine (52b) is provided with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified House Prime + Water Surface Floating Solar Heater (2) (2b) Inside Heating water (52b) with compressed air calorie (28b) of air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sun Various energies of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) aiming to increase power generation by maintaining light in the vicinity of a right angle are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heat the water (52b) with the amount of heat of compressed air (28b) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward to the long lens (2d) of the split fastener (80B) Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heating water (52b) with calorie compressed air calorie (28b) + Vaporization explosive force + Gravity acceleration in vacuum is further accelerated vertically downward and divided into multiple long lenses (80B) and tightened with a clamp (80B) 2d) are provided as a set, and various types of energy storage are provided for the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reduction means (3) aiming to increase the power generation amount are provided in multiple stages. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heat of water (52b) with compressed air calorie (28b) of heat + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase power generation Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heat water (52b) with compressed air calorie (28b) of heat + Vaporization explosive force + gravity acceleration in vacuum Accelerate vertically downward, and water from the existing lens cross section with a selected cross section length lens (2d) (52b) Various energy conservation cycles of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine having the friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the pipe are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air power photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + surface floating solar heater (2) (2b) internal air Heating water (52b) with compressed air calorie (28b) of heat + Evaporating explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sunlight in the part close to vacuum Is maintained in the vicinity of a right angle, and various kinds of energy conservation are achieved in a power generation method provided with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) aiming to increase power generation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and split fastener (80B) is tightened Power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing power generation amount by increasing the width of the long lens (2d) is provided in multiple stages. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Water (52b) is heated by compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration is further accelerated vertically downward in the vacuum, and divided and clamped (80B) A multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase power generation by providing a plurality of attached long lenses (2d) as a set are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and selected from existing materials Long lens (2d) The combined energy storage cycle engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward to select a cross-section long lens (2d ) In the multi-stage power generation with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming at increasing concentrated power generation amount in the water (52b) pipe with sunlight Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection and combustion + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, heat insulating long lens near the vacuum (2d) and a series of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for maintaining the sunlight in the vicinity of a right angle and increasing the amount of power generation Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Unit (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B ) Increased width of tightening long lens (2d) to increase power generation amount Increased power generation amount Friction loss reduction means (3) equipped with opposed series full blade impeller water turbine / opposite series full blade impeller gas turbine in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) A counter-series full-blade propulsion water turbine / opposite-series full-blade propulsion gas turbine provided with friction loss reducing means (3) that is provided with a plurality of tightened long lenses (2d) as a set to increase power generation amount Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select production length from existing materials Various types of energy conservation in a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase the amount of power generation with a long lens (2d) are provided in multiple stages. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and selected cross section from existing lens cross section Multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the amount of power generation concentrated on the water (52b) pipe with sunlight through the long lens (2d) Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward at the part close to vacuum A counter-series full-blade bouncer water turbine and a counter-series full-blade bouncer gas turbine equipped with an insulating long lens (2d) and friction loss reducing means (3) aiming to increase power generation by maintaining sunlight in the vicinity of a right angle Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, 80B) Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with friction loss reducing means (3) for increasing power generation by increasing the width of the long lens (2d) for tightening Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravitational acceleration vertically downward, split and tighten Opposed series full blade impeller water turbine / opposed in series full blade impeller gas turbine provided with friction loss reducing means (3) which is provided with a plurality of long lenses (2d) tightened with a tool (80B) to increase power generation amount Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to selectively manufacture from existing materials Various energies of a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase the amount of power generation with a long lens (2d) as a large number are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing lens cross section A counter-series full-blade bouncer water turbine and a counter-series full-blade bouncer gas turbine equipped with friction loss reduction means (3) aiming to increase the amount of power generation concentrated on the water (52b) tube with sunlight through the long lens (2d). Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and the part approaches vacuum In-series full blade impeller water turbine / opposed in-series full blade impeller gas turbine equipped with a long lens (2d) for heat insulation and friction loss reducing means (3) for maintaining the sunlight in the vicinity of a right angle and aiming at an increase in power generation Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heating water (52b) with the amount of air heat (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, long lens (2d) for tightening split fastener (80B) ) To increase the amount of power generation by increasing friction width (3), the series of opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages for energy conservation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heating water (52b) with air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, divided into multiple lengths of fastening tool (80B) Various types of power generation methods in which a series of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with a lens (2d) as a set and equipped with friction loss reduction means (3) aiming at increased power generation are provided in multiple stages Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heating water (52b) with air calorie (28b) + Fuel injection combustion + Vaporization explosive force in gravity + Gravitational acceleration is further accelerated vertically downwards, and power is generated by selecting a selected long lens (2d) from an existing material. Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heating water (52b) with air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and sunlight is selected with a cross-section long lens (2d) from the existing lens cross section The energy of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree + full electrification house prime + water surface type solar heater (2) (2b) compression Heat water (52b) with air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and a long lens (2d) for heat insulation in a part close to vacuum Various power generation methods with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) that aim to increase power generation by maintaining sunlight in the vicinity of a right angle Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Water Floating Solar Heater (2) (2b) Heat (28b) with water (52b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split clamp (80B) long lens (2d) Energy Conservation Cycle of Power Generation Method with Multiple Stages of Opposed-Series Full-Bloom Bouncer Water Turbine and Opposite-Series Full-Bloom Bouncer Gas Turbine with Friction Loss Reduction Means (3) Aiming to Increase Power Generation by Increasing the Width Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Water Floating Solar Heater (2) (2b) Heating water (52b) with heat (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward and divided into a plurality of long lenses for fastening (80B) Various energy of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine provided with the friction loss reducing means (3) provided with the set (2d) as a set to increase the power generation amount are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Surface Floating Solar Heater (2) (2b) Compressed Air Heating water (52b) with heat (28b) + Fuel injection combustion + Vaporization explosive force in gravity + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is made long from existing materials to generate electricity Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Water Floating Solar Heater (2) (2b) Heat water (52b) with calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross section length lens (2d) Various types of energy conservation in a power generation method in which a water turbine (52b) is provided with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Drives Various Automobiles + Water Floating Solar Heater (2) (2b) Heat water (52b) with heat (28b) + fuel injection combustion + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, heat insulation long lens (2d) and sun Various energies of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) aiming to increase power generation by maintaining light in the vicinity of a right angle are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosive force is increased to the maximum by + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) is increased to increase the amount of power generation Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosive force is increased to the maximum by + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) with fastening tools (80B) for power generation Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosive force is increased to the maximum by + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and friction loss reducing means (3 ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosive force is increased to the maximum with + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated into the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-air solar power generation method with 0CO2 exhaust gas 0 power generation + heat-resistant material (2A) heat insulating material (2c) water surface floating solar heater including half-cylinder outer box (77B) (2) Vaporization explosive force is increased to the maximum by + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat insulation is maintained in the vicinity of the long lens (2d) and sunlight in the vicinity of the right angle to generate electricity. Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vaporization explosion force increased to maximum with vessel (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vaporization explosion force increased to maximum with vessel (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided and set with multiple long lens (2d) tightening fastener (80B) Various energy conservation cycle coalescence engines of the power generation method in which the opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with the friction loss reducing means (3) aiming to increase the power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vaporization explosive force increased to maximum with vessel (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials. Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vaporization explosive force increased to maximum with vessel (2) + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerate vertically downward, sunlight from the existing lens cross section with a selected cross-section long lens (2d) water (52b) tube Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased concentrated power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degree + Solar Thermal Increase Suspension Bridge (2b) Water Surface Floating Solar Heating Vaporization explosion force increased to maximum with vessel (2) + Vaporization explosion force + gravity acceleration in vacuum Accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for maintaining and increasing power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Increase the vaporization explosive force to the maximum with the heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Then, various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming to increase the power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Increase the vaporization explosive force to the maximum with the heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening the fastener (80B) Combined engine of various energy conservation cycle of power generation method provided with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller water turbine equipped with friction loss reducing means (3) provided as a set to increase power generation amount . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Vaporization explosion force increased to maximum with heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and friction is aimed at increasing power generation by selecting a long lens (2d) that is a selected production length from existing materials Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Vaporization explosion force increased to maximum with heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is water (52b) from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing concentrated power generation in the pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Opposite Series All-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degrees + Solar-Enhanced Suspension Bridge (2b) Water Floating Solar Heater (2) increases vaporization explosive force to the maximum + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle The combined energy storage cycle engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) to maintain the power generation and to increase the power generation amount . 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Friction loss aiming to increase power generation by increasing the maximum + vaporizing explosive force in vacuum + gravitational acceleration further vertically downward, increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Increase to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening the fastener (80B) to increase power generation Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Increased to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is made long from existing materials, and friction loss reducing means (3) is aimed at increasing the power generation amount Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Increase to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and friction is aimed at increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + water surface floating type solar heater (2) vaporization explosive force Increase to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept at right angles near the vacuum, aiming to increase power generation Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power Friction loss reduction aiming at increased power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the vaporization explosive force + gravitational acceleration in vacuum + further downward Various energy storage cycle coalescing engines of power generation method provided with multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with means (3). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power Friction + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for tightening the fastener (80B). Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power Increased + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and it is equipped with friction loss reducing means (3) that aims to increase power generation by increasing the length of the selected production length lens (2d) from existing materials Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power Friction loss aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) by accelerating the vaporization explosion force + gravity acceleration in vacuum Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+水面浮上型太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + water surface floating type solar heater (2) maximum vaporization explosive power + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum, and friction aimed at increasing power generation Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Opposing in-series full blade impeller water equipped with friction loss reducing means (3) that accelerates vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Opposite series all blades equipped with friction loss reducing means (3) for accelerating vertically downward and dividing to provide a plurality of long lenses (2d) for fastening fasteners (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Opposed series full blade impeller water turbine / opposed series full blade impeller equipped with friction loss reduction means (3) that accelerates vertically downward and makes the selected production length lens (2d) long from existing materials to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Opposite series full blade impeller equipped with friction loss reduction means (3) aiming to increase concentrated power generation by accelerating vertically downward from the existing lens cross section to the water (52b) tube with sunlight selected by the long lens section (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Opposite series all blades provided with frictional loss reduction means (3) aiming to increase the amount of power generation by accelerating vertically downward and maintaining a heat insulating long lens (2d) near the right angle in the vicinity of vacuum Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Opposing in-series full blade impeller water equipped with friction loss reducing means (3) that accelerates vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Opposite series all blades equipped with friction loss reducing means (3) for accelerating vertically downward and dividing to provide a plurality of long lenses (2d) for fastening fasteners (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Opposed series full blade impeller water turbine / opposed series full blade impeller equipped with friction loss reduction means (3) that accelerates vertically downward and makes the selected production length lens (2d) long from existing materials to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Opposite series full blade impeller equipped with friction loss reduction means (3) aiming to increase concentrated power generation by accelerating vertically downward from the existing lens cross section to the water (52b) tube with sunlight selected by the long lens section (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar photovoltaic power generation series all-wheel impeller gas turbine driven by liquid nitrogen or liquid oxygen + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration added in vacuum Opposite series all blades provided with frictional loss reduction means (3) aiming to increase the amount of power generation by accelerating vertically downward and maintaining a heat insulating long lens (2d) near the right angle in the vicinity of vacuum Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum A counter-series full blade impeller equipped with friction loss reducing means (3) that accelerates further vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum Opposed series full-motion equipped with friction loss reducing means (3) aiming to increase power generation by accelerating further vertically downward and providing a set of multiple long lenses (2d) tightened with fasteners (80B) Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum Accelerating further vertically downward, and making the selected production length lens (2d) long from the existing material, and a friction loss reduction means (3) that aims to increase the power generation amount. Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum An opposed series full blade equipped with friction loss reducing means (3) for accelerating downward in the vertical direction and aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with sunlight by the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships primed + solar thermal suspension bridge (2b) solar heater (2) + vaporization explosive force + gravity acceleration in vacuum Opposite series full motion with friction loss reduction means (3) aiming to increase the amount of power generation by accelerating further vertically downward and keeping the heat insulating long lens (2d) near the right angle near the vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum Friction loss reduction means (3) aiming to increase the amount of power generation by accelerating explosive force + gravitational acceleration vertically downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressive heat recovery + Vaporization explosive force in vacuum + Gravity acceleration is accelerated further vertically downward, and the long lens (2d) of the split fastener (80B) is increased to increase the amount of power generated. Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heating water (52b) with heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of long lens (2d) for split clamp (80B) tightening Then, various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming to increase the power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( In 28b), water (52b) is heated + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate electricity. Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) heating + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum Friction loss reduction means (3) for accelerating explosive force + gravitational acceleration vertically downward, dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation amount Various energy storage cycle coalescing engines of power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of a long lens (2d) for fastening a fastener (80B) to increase power generation. Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heating water (52b) with heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) Combined engine of various energy conservation cycle of power generation method provided with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller water turbine equipped with friction loss reducing means (3) provided as a set to increase power generation amount . 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( In 28b), water (52b) is heated + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, and divided into a plurality of long-length lenses (2d) for fastening a fastener (80B). Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) is heated + fuel injected and combusted + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening with a fastener (80B) Various energy storage cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) that aims to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum An opposed series full blade impeller water turbine equipped with friction loss reduction means (3) aiming to increase power generation by accelerating explosive force + gravitational acceleration vertically downward and making the selected production length lens (2d) long from existing materials・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressive heat recovery + Vaporization explosive force + Gravitational acceleration in vacuum Adds friction loss reduction means (3) aiming to increase power generation by increasing the length of the selected production length lens (2d) from existing materials Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heat (52b) is heated with heat exchanger (2Y) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and friction is aimed at increasing power generation by selecting a long lens (2d) to be selected from existing materials. Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( 28b) Heating water (52b) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and the frictional loss reduction means aiming to increase the power generation by lengthening the selected production length lens (2d) from the existing material (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) heating + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to reduce the friction loss aiming to increase the power generation amount by making the selected production length lens (2d) longer Various energy storage cycle coalescing engines of power generation method provided with multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with means (3). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum Friction loss reduction means (3) for accelerating explosive force + gravitational acceleration vertically downward and aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressive heat recovery + Vaporization explosive force + Gravitational acceleration in vacuum Accelerate vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heat water (52b) with heat exchanger (2Y) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is water from selected lens cross section with selected cross-section long lens (2d) (52b) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing concentrated power generation in the pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( 28b) water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) is heated + fuel is injected and burned + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward, and sunlight is converted into a water (52b) tube from the existing lens cross section with a selected cross section long lens (2d) Various energy conservation cycle coalescing engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased concentrated power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum Friction loss reduction means (3) aiming to increase the amount of power generation by accelerating explosive force + gravitational acceleration vertically downward, keeping the long lens (2d) of heat insulation near the right angle and the sunlight near the right angle Various energy storage cycle coalescing engines of power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressed heat recovery + Vaporization explosive force + Gravity acceleration in vacuum Accelerate vertically downward and maintain heat insulation long lens (2d) and sunlight at right angles near the vacuum to increase power generation Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heating water (52b) with heat exchanger (2Y) + vaporizing explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and heat insulating long lens (2d) and sunlight are close to right angle at the part approaching vacuum The combined energy storage cycle engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) to maintain the power generation and to increase the power generation amount . 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( 28b) water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) is heated + fuel-injected and combusted + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward to keep the heat insulating long lens (2d) and sunlight close to right angle near the vacuum Then, various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming to increase the power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) Internal air is compressed heat recovery + Vaporization in vacuum Multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming at the same maximum water generation by accelerating explosive force + gravitational acceleration Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal suspension bridge (2b) Solar heater (2) Internal air (28a) heat pump (1G) Compressed heat recovery + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and opposed series full blade impeller water turbine with opposed friction loss reduction means (3) aiming at the same maximum water output Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air (28a) compressed water Heated water (52b) with heat exchanger (2Y) + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, opposed series equipped with friction loss reduction means (3) aiming at the same maximum water generation Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships plentiful + solar heat increase suspension bridge (2b) solar heater (2) (2b) internal air heat quantity compressed air heat quantity ( 28b) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and opposed series full blades equipped with friction loss reducing means (3) aiming at the same maximum water generation amount Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) Solar heater (2) (2b) Compressed air heat (28b) (52b) heating + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and opposed series full motion equipped with friction loss reduction means (3) aiming at the same maximum water generation amount Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + Anti-serial series equipped with friction loss reduction means (3) for accelerating the gravitational acceleration further downward and increasing the width of the long lens (2d) of the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + Frequency loss reduction means (3) for accelerating the gravitational acceleration vertically downward, dividing and providing a set of multiple long lenses (2d) for fastening the fastener (80B) to increase the power generation amount Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + Accelerating the gravitational acceleration vertically downward, select from the existing material Long selection manufacturing lens (2d) is a long, opposed series all blade impeller water turbine equipped with friction loss reduction means (3) aiming to increase power generation Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + Frequency loss reduction means (3) that aims to increase concentrated power generation amount to the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section by accelerating the gravitational acceleration further vertically downward Various energy storage cycle coalescing engines of the power generation method in which the series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method of abolishing sea surface temperature by 7 degrees + head rise with pumping pump (1H) + solar heat increase suspension bridge (2b) solar heater (2) + vaporization explosive power in vacuum + Gravitational acceleration is accelerated vertically downward, and a long lens (2d) for heat insulation is maintained near the vacuum, and a friction loss reducing means (3) for maintaining the sunlight in the vicinity of a right angle and increasing the amount of power generation is provided. Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and to increase the amount of power generated Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heated suspension bridge (2b) including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation. Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and the frictional loss reduction means (3) is aimed at increasing the amount of power generation by increasing the length of the selected production length lens (2d) from existing materials. Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with 0CO2 exhaust gas and 0 power generation + heat-resistant material (2A) heat-insulating material (2c) solar-heated suspension bridge (2b) including half-cylinder outer box (77B) (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat generation is increased by maintaining a long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and generate power Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long lenses (2d) for fastening fasteners (80B). Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Equilibrium solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and friction loss reduction means aiming to increase power generation by lengthening the selected production length lens (2d) from existing materials ( 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) Equivalent solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens section with the selected section length lens (2d) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Equivalent solar heater (2) + Vaporization explosive force + Gravitational acceleration in vacuum Accelerate vertically downward, and keep heat-insulated long lens (2d) and sunlight near right angle near the vacuum Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening to generate electricity Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Equivalent solar heater (2) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward, and divided into multiple sets of long lenses (2d) for fastening (80B) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar power heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to reduce the loss of friction by increasing the length of the selected production length lens (2d) from existing materials and increasing power generation (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Equivalent solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to keep the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Friction loss reduction means for increasing the power generation amount by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the vaporization explosive force in the vacuum + acceleration of gravity downward in the vacuum 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) with clamps (80B) to reduce friction loss to increase power generation Various energy storage cycle coalescing engines of power generation method provided with multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with means (3). 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the opposite series all equipped with friction loss reduction means (3) aiming to increase the power generation amount by lengthening the selected production length lens (2d) from existing materials Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and friction loss reduction means aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade pusher gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrification housing prime + solar heat increase suspension bridge (2b) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat loss is reduced by maintaining heat insulation long lens (2d) and sunlight in the vicinity of right angle near the vacuum. Various energy storage cycle coalescing engines of power generation method provided with multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with means (3). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + Friction loss reducing means (3) that accelerates vaporization explosive force + gravitational acceleration in a vacuum in the vacuum and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount (3 ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + Friction loss reduction means for accelerating vaporization explosive force + gravitational acceleration in vacuum, vertically and dividing, and providing multiple long lenses (2d) for fastening fasteners (80B) to increase power generation (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + Opposite series full motion equipped with friction loss reduction means (3) aiming to increase power generation amount by increasing the length of the selected production length lens (2d) from existing materials by accelerating vaporization explosive force + gravity acceleration in vacuum vertically Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + Friction loss reduction means for accelerating vaporization explosive force + gravitational acceleration in vacuum vertically downward, and aiming to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) ( 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)等太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery-powered various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) + Friction loss reduction means aiming to increase power generation by accelerating vaporization explosive force + gravitational acceleration in vacuum vertically and maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B), and to increase the amount of power generated. Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the frictional loss reducing means (3) is aimed at increasing the power generation amount by increasing the length of the selected production length lens (2d) from existing materials. Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and friction is aimed at increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part approaching the vacuum, aiming to increase power generation Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Friction loss reduction means (3), aiming to increase the power generation amount by increasing the length of the selected production length lens (2d) from existing materials by accelerating the vertical vaporization acceleration of vaporization explosion force + gravitational acceleration in vacuum ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated into the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of vacuum. Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and generate power Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long lenses (2d) for fastening with a fastener (80B). Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and friction loss reduction means aiming to increase power generation by lengthening the selected production length lens (2d) from existing materials ( 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) + Vaporization explosive force + Gravitational acceleration in vacuum Accelerate vertically downward, keeping heat insulation long lens (2d) and sunlight close to right angle near the vacuum Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + Friction loss reducing means (3) that accelerates vaporization explosive force + gravitational acceleration in a vacuum in the vacuum and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount (3 ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + Friction loss reduction means for accelerating vaporization explosive force + gravitational acceleration in vacuum, vertically and dividing, and providing multiple long lenses (2d) for fastening fasteners (80B) to increase power generation (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + Opposite series full motion equipped with friction loss reduction means (3) aiming to increase power generation amount by increasing the length of the selected production length lens (2d) from existing materials by accelerating vaporization explosive force + gravity acceleration in vacuum vertically Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + Friction loss reduction means for accelerating vaporization explosive force + gravitational acceleration in vacuum vertically downward, and aiming to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) ( 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade bouncer gas turbine exhaust compressed air temperature approaches 0 degree absolute + full electrified house prime + solar heat increase suspension bridge (2b) solar heater (2) + Friction loss reduction means aiming to increase power generation by accelerating vaporization explosive force + gravitational acceleration in vacuum vertically and maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Driven Various Cars Prime + Solar Heat Suspension Bridge (2b) Solar Heater (2) + Vacuum Friction loss reduction means (3) aiming to increase the amount of power generation by accelerating the vaporization explosive force + gravitational acceleration downward in the vertical direction and increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Driven Various Cars Prime + Solar Heat Suspension Bridge (2b) Solar Heater (2) + Vacuum Friction loss reduction means for accelerating the vaporization explosive force + gravitational acceleration in the vertically downward direction and dividing and providing a set of multiple long lenses (2d) for fastening the fastener (80B) to increase the power generation amount ( 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Driven Various Cars Prime + Solar Heat Suspension Bridge (2b) Solar Heater (2) + Vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the opposed series full blades equipped with friction loss reduction means (3) aiming to increase the power generation amount by lengthening the selected production length lens (2d) from the existing material Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Driven Various Cars Prime + Solar Heat Suspension Bridge (2b) Solar Heater (2) + Vacuum Friction loss reduction means (3) which accelerates vaporization explosive force + gravitational acceleration vertically downward and aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Photovoltaic Power Generation Opposite Series Full-Boiled Rotor Gas Turbine Gas Turbine Drives with Liquid Nitrogen and Liquid Oxygen + Storage Battery Driven Various Cars Prime + Solar Heat Suspension Bridge (2b) Solar Heater (2) + Vacuum Friction loss reduction means that aim to increase power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward and maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Internal air is recovered by compressing heat + Explosive force of vaporization in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Compressed heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of a long lens (2d) for fastening with a fastener (80B) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Compressive heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and friction loss reduction means aiming at increased power generation by lengthening the selected production length lens (2d) from existing materials (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to maintain the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) Solar heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the width of long lens (2d) for split clamp (80B) tightening Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) which increases the power generation amount by increasing are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) Combined with various energy conservation cycles of a power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted into water (52b) from the existing lens cross section with a selected cross section long lens (2d) ) Various energy conservation cycle coalescence engine of power generation method provided with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller water turbine equipped with friction loss reducing means (3) aiming at increased concentrated power generation amount in the pipe . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight at right angles in the part approaching vacuum Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) that is maintained in the vicinity and aims to increase power generation amount organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the power generation . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Compressed heat recovery + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with a fastener (80B) ) As a set and various energy conservation cycles of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the amount of power generation by selecting a long production lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Sunlight heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is removed from the existing lens cross section with the selected cross section long lens (2d) ( 52b) Combining various energy conservation cycles of a power generation method in which a multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing concentrated power generation in the pipe is provided. organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the long lens (2d) of heat insulation and sunlight are irradiated in the part approaching the vacuum Various energy conservation cycles of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) that are maintained in the vicinity of a right angle and aim to increase power generation are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Recover air by compressing heat + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, increasing the width of the long lens (2d) for tightening the split fastener (80B) and aiming to increase power generation Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Friction loss reduction means (3) that aims to increase the power generation amount by increasing the length of the selected production length lens (2d) from existing materials by accelerating the compression heat recovery + vaporization explosive force + gravity acceleration in vacuum vertically Various energy storage cycle coalescing engines of power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Compressed heat recovery + Evaporative explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the concentrated power generation amount is increased from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept at right angles near the vacuum to increase power generation Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and to increase the amount of power generated Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of multiple long lenses (2d) for fastening (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Friction loss reduction means (3) aiming to increase the amount of power generation by increasing the length of the selected production length lens (2d) from existing materials by accelerating vertically downward the vaporization explosive force + gravitational acceleration in vacuum Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum to increase power generation Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Internal air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to provide a long lens (80B) tightening split clamp (80B) 2d) Various energies of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming at increasing the amount of power generation by increasing the width of 2d) are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, and divided into a plurality of fasteners (80B) for fastening. In a power generation method in which a long lens (2d) is provided as a set and an opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with friction loss reduction means (3) aiming to increase power generation is provided in multiple stages. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Recover internal air (28a) with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to make the selected production length lens (2d) long Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Internal air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the sun is selected from the existing lens cross section with a selected cross section long lens (2d) Various kinds of power generation methods in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe are provided in multiple stages. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) The internal air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for heat insulation at the part approaching the vacuum Power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation by maintaining solar power and sunlight near right angles Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered with compression heat by heat pump (1G) + Explosive force of vaporization + Gravitational acceleration in vacuum is further accelerated vertically and tightened by split fastener (80B) Power generation provided with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) A multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing multiple tightening long lenses (2d) as a set Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosion force + Gravitational acceleration in vacuum is further accelerated vertically downward and selected from existing materials Long lens (2d ) And a series of various energy conservation cycle coalescence engines with a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided. . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward from the existing lens cross section. In 2d), the opposed series full bucket impeller water turbine and the opposed series full bucket propeller gas turbine equipped with friction loss reduction means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe in 2d) are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation is long at the part close to vacuum Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining the lens (2d) and sunlight near right angles Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further downward vertically, split fastener (80B) tightened A series of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the attached long lens (2d) are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force + gravity acceleration in vacuum is further accelerated vertically downward and divided into fasteners (80B) ) Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing multiple tightened long lenses (2d) as a set Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select from existing materials Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation with 2d) being long organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a long lens from the existing lens cross section In (2d), a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount in the water (52b) pipe in (2d) Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) Internal heat (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to insulate the part close to vacuum Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with long lens (2d) and friction loss reduction means (3) aiming to increase power generation by maintaining sunlight near right angle Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Compressed heat recovery of air (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the power generation . 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into a plurality of long lenses (2d) for fastening with a fastener (80B) ) As a set and various energy conservation cycles of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Recover air (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Air (28a) is recovered by compressing heat with a heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted into water (2d) from the existing lens cross section with the selected cross section long lens (2d) 52b) Combining various energy conservation cycles of a power generation method in which a multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing concentrated power generation in the pipe is provided. organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic solar power generation series all-wheel blade bouncer gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) inside Air (28a) is recovered by compressing heat with a heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation and sunlight are irradiated near the vacuum. Various energy conservation cycles of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) that are maintained in the vicinity of a right angle and aim to increase power generation are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air (28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) which increases the power generation amount by increasing are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) Combined with various energy conservation cycles of a power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air Heat recovery (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is water (52b) from the existing lens cross section with the selected cross section long lens (2d) ) Various energy conservation cycle coalescence engine of power generation method provided with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller water turbine equipped with friction loss reducing means (3) aiming at increased concentrated power generation amount in the pipe . 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen or liquid oxygen + storage battery drive to make various automobiles prime + solar heat increase suspension bridge (2b) solar heater (2) internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sunlight at right angle in the part approaching vacuum Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) that is maintained in the vicinity and aims to increase power generation amount organ. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the split fastener ( 80B) Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with friction loss reducing means (3) for increasing power generation by increasing the width of the long lens (2d) for tightening Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + acceleration of gravity is accelerated vertically downward, and divided and tightened Opposed series full blade impeller water turbine / opposed in series full blade impeller gas turbine provided with friction loss reducing means (3) which is provided with a plurality of long lenses (2d) tightened with a tool (80B) to increase power generation amount Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward to selectively produce from existing materials Various energies of a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase the amount of power generation with a long lens (2d) as a large number are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Internal air (28a) is compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing lens cross section A counter-series full-blade bouncer water turbine and a counter-series full-blade bouncer gas turbine equipped with friction loss reduction means (3) aiming to increase the amount of power generation concentrated on the water (52b) tube with sunlight through the long lens (2d). Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) The internal air (28a) is heated with the compressed water heat exchanger (2Y), the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is accelerated vertically downward, and the part that is close to the vacuum In-series full blade impeller water turbine / opposed in-series full blade impeller gas turbine equipped with a long lens (2d) for heat insulation and friction loss reducing means (3) for maintaining the sunlight in the vicinity of a right angle and aiming at an increase in power generation Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided Opposing series full blade impeller water turbine / opposed series full blade impeller equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) for tightening the fastener (80B) Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided And a counter-series full-blade propulsion wheel water turbine / opposite series full-motion equipped with a friction loss reducing means (3) which is provided with a plurality of long-length lenses (2d) for tightening the fastener (80B) to increase the amount of power generation Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Power generation with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation by making the production long lens (2d) long from the material Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Opposite series full blade impeller water turbine / opposite series full blade equipped with friction loss reduction means (3) aiming at increasing concentrated power generation amount to sunlight (52b) pipe with sunlight selected from lens cross section long lens (2d) Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, A counter-series full blade impeller water turbine / opposite series full-motion equipped with a long lens (2d) for heat insulation near the point and a friction loss reduction means (3) that aims to increase the amount of power generation by maintaining sunlight in the vicinity of a right angle. Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, Opposing in-series full blade impeller water turbine / opposed in-series full moving blade provided with friction loss reducing means (3) for increasing power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, A counter-series full blade impeller water turbine / opposite series total equipped with friction loss reducing means (3) which is provided with a plurality of long-length lenses (2d) for tightening the fastener (80B) and aiming to increase the amount of power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by lengthening the selected production long lens (2d) from existing materials Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, Opposite series full blade impeller water turbine / opposite series full motion equipped with friction loss reduction means (3) aiming to increase the amount of concentrated power generation from the cross section of the existing lens to the water (52b) pipe with sunlight selected by the long section lens (2d) Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravitational acceleration is accelerated vertically downward, A counter-series full-blade propulsion turbine water turbine / opposed series total equipped with a long lens (2d) for heat insulation in a part close to a vacuum and friction loss reducing means (3) aiming to increase the amount of power generation by maintaining sunlight at a right angle. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in a vacuum vertically and tighten the split fastener (80B) Power generation provided with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with a compressed water heat exchanger (2Y) and heat the water (52b) + vaporize explosive force in vacuum + accelerate the gravitational acceleration vertically downward, and divide and tighten the fastener (80B) A multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing multiple tightening long lenses (2d) as a set Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in the vacuum vertically and select from existing materials ) And a series of various energy conservation cycle coalescence engines with a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided. . 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravity acceleration in the vacuum vertically downward, and select the cross-section long lens ( In 2d), the opposed series full bucket impeller water turbine and the opposed series full bucket propeller gas turbine equipped with friction loss reduction means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe in 2d) are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat the internal air (28a) with a compressed water heat exchanger (2Y) and heat the water (52b) + vaporization explosive force in vacuum + additional acceleration of gravity in the vertical downward direction, heat insulation at the part approaching the vacuum Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining the lens (2d) and sunlight near right angles Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically, and tighten the split fastener (80B) Power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing power generation amount by increasing the width of the long lens (2d) is provided in multiple stages. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically and divide and tighten the clamp (80B) A multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase power generation by providing a plurality of attached long lenses (2d) as a set are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating the internal air (28a) with the compressed water heat exchanger (2Y) and heating the water (52b) + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward and selecting from existing materials Long lens (2d) The combined energy storage cycle engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically in the vacuum, select the cross-section long lens (2d ) In the multi-stage power generation with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming at increasing concentrated power generation amount in the water (52b) pipe with sunlight Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y), heat the water (52b) + vaporize explosive force in the vacuum + accelerate the gravitational acceleration vertically downward, heat insulation long lens near the vacuum (2d) and a series of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for maintaining the sunlight in the vicinity of a right angle and increasing the amount of power generation Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, split fastener (80B) tightened A series of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the attached long lens (2d) are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Water (52b) is heated by compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and divided into fasteners (80B ) Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing multiple tightened long lenses (2d) as a set Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heat (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and selected from existing materials Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation with 2d) being long organ. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward to select a cross-section long lens from existing lens cross-section In (2d), a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount in the water (52b) pipe in (2d) Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation is applied in the part approaching vacuum Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with long lens (2d) and friction loss reduction means (3) aiming to increase power generation by maintaining sunlight near right angle Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) An opposed series full blade propeller water turbine / opposed series full bucket propeller gas turbine provided with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) for tightening Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, split and tighten A counter-series full-blade bouncer water turbine / opposite-series full-blade bouncer gas equipped with a friction loss reducing means (3) that is provided with a set of a plurality of long lenses (2d) tightened with an attachment (80B) to increase power generation amount Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various types of power generation methods in which a multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming at increased power generation with a long production lens (2d) is provided. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight through the selected section long lens (2d) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration was accelerated vertically downward to bring it closer to vacuum A counter-series full-blade bouncer water turbine / opposite-series full-blade bouncer gas equipped with a long lens (2d) that is thermally insulated and a friction loss reduction means (3) that aims to increase power generation by maintaining sunlight in the vicinity of a right angle Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, split tightening Opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) tightening the tool (80B) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided A counter-series full blade impeller water turbine / opposite series full-blade propeller wheel provided with a friction loss reducing means (3) provided with a set of multiple long lenses (2d) for tightening a fastener (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials A power generation method in which an opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase the amount of power generation with a long selection manufacturing long lens (2d) is provided in multiple stages. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, cross-section of existing lens The opposed series full blade impeller water turbine / opposed serial full blade impeller gas equipped with friction loss reducing means (3) that aims to increase the amount of power generation concentrated in the water (52b) pipe with sunlight selected from the long lens (2d) Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of the internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to bring it closer to vacuum A counter-series full-blade bouncer water turbine / opposite series full-blade bouncer equipped with a long lens (2d) for heat insulation at the part and friction loss reduction means (3) for maintaining the sunlight in the vicinity of a right angle and aiming at an increase in power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating of water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, long lens for split clamp (80B) tightening Various types of power generation methods in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine provided with friction loss reducing means (3) for increasing the amount of power generation by increasing the width of (2d) are provided in multiple stages. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum, and vertically accelerating and splitting the fastener (80B) A power generation method in which a plurality of long-length lenses (2d) are provided as a set and an opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with friction loss reducing means (3) aiming to increase power generation in multiple stages is provided. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and the selected production length lens (2d) is long from existing materials Various energy storage cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation amount. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Water (52b) is heated by compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is accelerated further downward in the vertical direction, and from a cross section of an existing lens with a selected cross section long lens (2d) A power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount in sunlight (52b) pipes are provided. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum, vertically accelerating vertically downward, heat insulating long lens (2d) ) And sunlight in the vicinity of a right angle, and a friction loss reducing means (3) aiming at an increase in the amount of power generation is provided. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically, long lens for split clamp (80B) tightening ( 2d) Various energies of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming at increasing the amount of power generation by increasing the width of 2d) are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple fasteners (80B) In a power generation method in which a long lens (2d) is provided as a set and an opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with friction loss reduction means (3) aiming to increase power generation is provided in multiple stages. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heat the water (52b) with the compressed air calorie (28b) of the internal air calorie + Accelerate the vaporization explosive force + gravitational acceleration vertically in the vertical direction, select the existing production material from the long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is accelerated vertically downward, and the sun is selected with a long lens (2d) from the existing lens cross section Various kinds of power generation methods in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe are provided in multiple stages. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating the water (52b) with the compressed air calorie (28b) of the internal air calorie + vaporizing explosive force + gravitational acceleration in the vacuum, vertically accelerating vertically downward, heat insulating long lens (2d) Power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation by maintaining solar power and sunlight near right angles Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, split fastener (80B) Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the long lens (2d) Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward and divided into fasteners ( 80B) Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing multiple tightened long lenses (2d) as a set Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and selected from existing materials Various energy conservation cycles of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine provided with the friction loss reduction means (3) aiming at increasing the amount of power generation with a long (2d) are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, and selected cross section length from existing lens cross section Multi-stage counter series full blade impeller water turbine / opposite series full blade propeller gas turbine equipped with friction loss reduction means (3) aiming to increase the amount of power generation concentrated on the water (52b) pipe with sunlight through the lens (2d) Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) (2b) Heating of water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to insulate the part close to vacuum Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with a long lens (2d) and a friction loss reducing means (3) that aims to increase power generation by maintaining sunlight in the vicinity of a right angle Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) tightening the tool (80B) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and divided A counter-series full blade impeller water turbine / opposite series full-blade propeller wheel provided with a friction loss reducing means (3) provided with a set of multiple long lenses (2d) for tightening a fastener (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials A power generation method in which an opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase the amount of power generation with a long selection manufacturing long lens (2d) is provided in multiple stages. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, cross-section of existing lens The opposed series full blade impeller water turbine / opposed serial full blade impeller gas equipped with friction loss reducing means (3) that aims to increase the amount of power generation concentrated in the water (52b) pipe with sunlight selected from the long lens (2d) Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards closer to vacuum A counter-series full-blade bouncer water turbine / opposite series full-blade bouncer equipped with a long lens (2d) for heat insulation at the part and friction loss reduction means (3) for maintaining the sunlight in the vicinity of a right angle and aiming at an increase in power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Opposing series full blade impeller water turbine / opposed series full blade impeller gas equipped with friction loss reducing means (3) for increasing power generation by increasing the width of the long lens (2d) for tightening the attachment (80B) Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force + Gravitational acceleration is accelerated vertically downward and divided Counter series full blade impeller water turbine / opposite series full blade provided with friction loss reducing means (3) for increasing power generation by providing a plurality of long lens (2d) for tightening the clamp (80B) Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, existing materials Power generation method provided with multistage stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation by making the production length lens (2d) long from Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, existing lens Opposed series full blade impeller water turbine / opposed series full blade impeller equipped with friction loss reduction means (3) aiming to increase the amount of power generation concentrated on the water (52b) tube with sunlight selected from the cross-section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in gravity + Gravitational acceleration is accelerated vertically downward to make vacuum A counter-series full blade impeller water turbine / opposite series full-blade equipped with a long lens (2d) for heat insulation in the close part and friction loss reducing means (3) for maintaining the sunlight in the vicinity of a right angle to increase power generation Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heat of water (52b) with compressed air calorie (28b) + fuel injection and combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, length of split fastener (80B) tightening A power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the lens (2d) are provided in multiple stages. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward and divided and clamped (80B) Power generation with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by providing multiple long lenses (2d) as a set Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration further vertically downward, select manufacturing long lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation as long as possible. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to select a cross-section long lens (2d) from the existing lens cross section Power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing concentrated power generation in the water (52b) pipe with sunlight are provided in multiple stages Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature approaches 0 degrees absolute + full electrification house prime + solar heat increase suspension bridge (2b) solar heater (2) ( 2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration is accelerated vertically downward, and heat insulation long lens ( 2d) and power generation with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining sunlight near right angle Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, long lens for split clamp (80B) tightening Various types of power generation methods in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine provided with friction loss reducing means (3) for increasing the amount of power generation by increasing the width of (2d) are provided in multiple stages. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward and divided into fasteners (80B) A power generation method in which a plurality of long-length lenses (2d) are provided as a set and an opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with friction loss reducing means (3) aiming to increase power generation in multiple stages is provided. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration in vacuum additional vertical downward acceleration, select production length lens (2d) is long from existing materials Various energy storage cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation amount. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward from the existing lens cross section with a selected cross section long lens (2d) A power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount in sunlight (52b) pipes are provided. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro pneumatic aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for heat insulation at the part approaching the vacuum ) And sunlight in the vicinity of a right angle, and a friction loss reducing means (3) aiming at an increase in the amount of power generation is provided. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Increase vaporization explosive force to the maximum in + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater In (2), the vaporization explosive force is increased to the maximum + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into a set of multiple long lenses (2d) for tightening the fastener (80B) Various energy storage cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) that aims to increase power generation. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Increase vaporization explosive force to the maximum + Vapor explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, reducing the loss of friction aiming to increase the power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle coalescing engines of power generation method provided with multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with means (3). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater In (2), the vaporization explosive force is increased to the maximum + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and sunlight is converted into the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescing engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased concentrated power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) thermal insulation material (2c) solar thermal increase suspension bridge including half-cylinder outer box (77B) solar heater (2) Increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to keep the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. Then, various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming to increase the power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the power generation . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Increase the vaporization explosive force to the maximum with the solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening the fastener (80B) ) As a set and various energy conservation cycles of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material to increase the power generation amount Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is accelerated vertically downward, and the sunlight from the existing lens cross section with the selected cross-section long lens (2d) ( 52b) Combining various energy conservation cycles of a power generation method in which a multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing concentrated power generation in the pipe is provided. organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vaporization explosive force in vacuum + Gravitational acceleration Accelerate vertically downward, and insulate the long lens (2d) and sunlight in the part close to the vacuum Various energy conservation cycles of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) that are maintained in the vicinity of a right angle and aim to increase power generation are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the long lens (2d) for tightening the split fastener (80B) Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Maximum increase in vaporization explosive force with solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (80B) tightened ( 2d) are provided as a set, and various types of energy storage are provided for the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reduction means (3) aiming to increase the power generation amount are provided in multiple stages. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Maximum increase in vaporization explosive force with solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production long lens (2d) long Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Increase vaporization explosive power to maximum with solar heater (2) + Vaporization explosive force in gravity + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) (52b) Various energy conservation cycles of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine having the friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the pipe are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Increase the vaporization explosive force to the maximum with the solar heater (2) + Add the vaporization explosive force in vacuum + Gravitational acceleration to the vertical downward direction, heat insulation long lens (2d) and sunlight in the part close to the vacuum Is maintained in the vicinity of a right angle, and various kinds of energy conservation are achieved in a power generation method provided with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) aiming to increase power generation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosion force is increased to the maximum + Vaporization explosion force + gravity acceleration in vacuum is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) is increased to increase the power generation amount. Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosion force increased to the maximum + Vaporization explosion force + Gravitational acceleration in the vertical direction is further accelerated vertically downward, and divided into multiple sets of a long lens (2d) for fastening the fastener (80B). Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosive force is increased to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and friction loss reduction means (3) aiming to increase power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosion force increased to the maximum + Vaporization explosion force + Gravity acceleration in the vertical direction Accelerated vertically downward, increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine exhaust gas compressed air temperature approaches 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) with solar heater (2) Vaporization explosive force increased to maximum + vaporization explosive force + gravity acceleration in vacuum Accelerated vertically downward, heat insulation long lens (2d) and sunlight kept near right angle near the vacuum Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Explosive force increased to maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase power generation Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Increases explosion power to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide multiple sets of long lenses (2d) for fastening (80B) to increase power generation Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Friction loss reduction means (3) aiming to increase power generation by increasing the maximum explosive force + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward and making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescing engines of power generation method provided with multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Increase explosion power to maximum + Vaporization explosion force + Gravitational acceleration in vacuum Accelerate vertically downward, increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven by liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar heat increase suspension bridge (2b) vaporization with solar heater (2) Increases explosion power to the maximum + Vaporization explosion force + Gravitational acceleration in vacuum Accelerates vertically downward, increases heat generation by maintaining long lens (2d) and sunlight near right angle near vacuum Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Equipped with friction loss reducing means (3) that accelerates vaporization explosive force + gravitational acceleration vertically downward and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount Various energy conservation cycle coalescence engines of the power generation method provided with the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Friction loss reduction means (3) for accelerating the vaporization explosive force + gravitational acceleration vertically downward, dividing and providing a set of multiple long lenses (2d) for fastening the fastener (80B) to increase power generation Various energy conservation cycle coalescence engines of power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and the opposite series full blade impeller water equipped with friction loss reduction means (3) aiming to increase the power generation amount by lengthening the selected production length lens (2d) from existing materials Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Friction loss reduction means (3) aiming to increase the amount of concentrated power generation by accelerating the vaporization explosive force + gravitational acceleration vertically downward and using the selected lens length lens (2d) from the existing lens cross section to the water (52b) tube Various energy storage cycle coalescing engines of power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Friction loss reduction means (3) aiming to increase the amount of power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward and maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum Various energy storage cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Equipped with friction loss reducing means (3) that accelerates vaporization explosive force + gravitational acceleration vertically downward and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount Various energy conservation cycle coalescence engines of the power generation method provided with the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Friction loss reduction means (3) for accelerating the vaporization explosive force + gravitational acceleration vertically downward, dividing and providing a set of multiple long lenses (2d) for fastening the fastener (80B) to increase power generation Various energy conservation cycle coalescence engines of power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Vaporization explosive force + gravitational acceleration is accelerated vertically downward, and the opposite series full blade impeller water equipped with friction loss reduction means (3) aiming to increase the power generation amount by lengthening the selected production length lens (2d) from existing materials Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Friction loss reduction means (3) aiming to increase the amount of concentrated power generation by accelerating the vaporization explosive force + gravitational acceleration vertically downward and using the selected lens length lens (2d) from the existing lens cross section to the water (52b) tube Various energy storage cycle coalescing engines of power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series Full-Boiled Wheel Turbine Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen + Solar Heat Suspension Bridge (2b) Moves Right Angle to Sunlight + Solar Heater (2) + In Vacuum Friction loss reduction means (3) aiming to increase the amount of power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward and maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum Various energy storage cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Friction loss reduction means (3) aiming to increase the amount of power generation by accelerating the vaporization explosive force + gravitational acceleration vertically downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines of power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Friction loss reduction means (3) which accelerates vaporization explosive force + gravitational acceleration vertically downward, divides and provides a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and an opposed series full blade impeller equipped with friction loss reduction means (3) aiming to increase power generation by lengthening the selected production length lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Friction loss reduction means (3) aiming to increase the amount of concentrated power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward, and using the selected lens length lens (2d) from the existing lens cross section to the water (52b) tube Various energy storage cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal augmentation suspension bridge (2b) is perpendicular to sunlight + Solar heater (2) + In vacuum Vaporization explosive force + gravitational acceleration is further accelerated in the vertical direction, and the friction loss reducing means (3) aiming to increase the amount of power generation by keeping the heat insulating long lens (2d) and sunlight in the vicinity of a right angle near the vacuum. ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Friction loss that aims to increase power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration vertically downward Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) with heat pump (1G) to recover compression heat + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening Then, various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming to increase the power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the length of the split fastener (80B) tightening A power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the lens (2d) are provided in multiple stages. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and long lens (2d) for split clamp (80B) tightening ) To increase the amount of power generation by increasing friction width (3), the series of opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages for energy conservation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravity acceleration further downward vertically, long lens (80B) tightening split clamp (80B) 2d) Various energies of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming at increasing the amount of power generation by increasing the width of 2d) are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) is compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into a multi-lens (2d) for fastening with a fastener (80B) Combined engine of various energy conservation cycle of power generation method provided with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller water turbine equipped with friction loss reducing means (3) provided as a set to increase power generation amount . 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, and divide and tighten the clamp (80B) Power generation with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by providing multiple long lenses (2d) as a set Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + acceleration of gravitational acceleration further vertically downward, divided into multiple lengths of fastening tool (80B) Various types of power generation methods in which a series of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with a lens (2d) as a set and equipped with friction loss reduction means (3) aiming at increased power generation are provided in multiple stages Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + acceleration of gravitational acceleration further downward vertically, divided into multiple fasteners (80B) In a power generation method in which a long lens (2d) is provided as a set and an opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with friction loss reduction means (3) aiming to increase power generation is provided in multiple stages. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressive heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is made long from existing materials, and friction loss reducing means (3) is aimed at increasing power generation. Various energy conservation cycle coalescence engine of power generation method with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and friction is aimed at increasing power generation by selecting a long lens (2d) that is a selected production length from existing materials Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) The internal air (28a) is heated with a compressed water heat exchanger (2Y) and water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward to select a production long lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation as long as possible. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + Gravitational acceleration is accelerated in the vertical downward direction in vacuum, and power generation is performed by selecting a selected long lens (2d) from an existing material. Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection and combustion + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward to make the selected production length lens (2d) long Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressive heat recovery + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and friction is aimed at increasing the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) (52b) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing concentrated power generation in the pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force in the vacuum + the acceleration of gravity is further accelerated vertically downward, and the cross-sectional length lens (2d) selected from the existing lens cross section Power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing concentrated power generation in the water (52b) pipe with sunlight are provided in multiple stages Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + vaporization explosive force + gravitational acceleration in vacuum is accelerated vertically downward, and sunlight is selected from the existing lens cross section with a selected cross-section long lens (2d) The energy of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Water (52b) is heated by compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration is further accelerated vertically downward in the vacuum, and the sun is selected from the existing lens cross section with a selected cross section long lens (2d) Various kinds of power generation methods in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe are provided in multiple stages. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum, aiming to increase power generation Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, heat insulation long lens (2d) and sunlight near right angle The combined energy storage cycle engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) to maintain the power generation and to increase the power generation amount . 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heat the internal air (28a) with a compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in the vacuum vertically, and insulate the long lens ( 2d) and power generation with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining sunlight near right angle Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and heat insulating long lens (2d) is close to the vacuum. Various power generation methods with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) that aim to increase power generation by maintaining sunlight in the vicinity of a right angle Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to insulate long lens (2d) near the vacuum Power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation by maintaining solar power and sunlight near right angles Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar thermal increase suspension bridge (2b) is brought perpendicular to sunlight + Solar heater (2) Internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to achieve the same water volume maximum power generation Friction loss reduction means (3) Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + battery-powered various ships plentiful + solar heat increase suspension bridge (2b) close to right angle with sunlight + solar heater (2) internal air ( 28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, opposed series equipped with friction loss reduction means (3) aiming at the same maximum amount of water generation Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Friction loss reduction means to heat the internal air (28a) with a compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically downward, aiming at the same water maximum power generation (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and friction loss reduction means aiming at the same water amount maximum power generation (3) Various energy storage cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery-powered various ships primed + solar thermal augmentation suspension bridge (2b) close to the right angle + solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and friction loss reducing means (3 ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and to reduce the friction loss aiming to increase power generation (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) and friction loss aiming to increase power generation Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + In-line series equipped with friction loss reduction means (3) aiming to increase the power generation amount by increasing the length of the selected production length lens (2d) from existing materials by accelerating the vaporization explosive force + gravitational acceleration in vacuum vertically Various energy conservation cycle coalescence engine of power generation method with multi-stages of all blade impeller water turbine and opposed series all blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is diverted from the existing lens cross section to the water (52b) pipe with the selected cross-section long lens (2d) to reduce the frictional loss Various energy storage cycle coalescing engines of power generation method provided with multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with means (3). 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method of abolishing sea water surface temperature by 7 degrees + Increase head by pumping pump (1H) + Solar heat increase suspension bridge (2b) close to right angle with sunlight + Solar heater (2 ) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and friction loss is aimed at increasing power generation by maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the vertical explosion force + gravitational acceleration in a vacuum, etc. Then, various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming to increase the power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near-right angle etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into a multiple length lens (2d) for fastening with a fastener (80B) Combined engine of various energy conservation cycle of power generation method provided with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller water turbine equipped with friction loss reducing means (3) provided as a set to increase power generation amount . 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near-right angle etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the friction is aimed at increasing power generation by selecting a long lens (2d) to be selected from existing materials. Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with a selected cross-section long lens (2d) (52b) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing concentrated power generation in the pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight near right angle The combined energy storage cycle engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) to maintain the power generation and to increase the power generation amount . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) A long lens (2d) for tightening the split fastener (80B) by accelerating the vaporization explosive force + gravitational acceleration in the vertical direction vertically, etc. Energy Conservation Cycle of Power Generation Method with Multiple Stages of Opposed-Series Full-Bloom Bouncer Water Turbine and Opposite-Series Full-Bloom Bouncer Gas Turbine with Friction Loss Reduction Means (3) Aiming to Increase Power Generation by Increasing the Width Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses with fastening tools (80B) Various energy of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine provided with the friction loss reducing means (3) provided with the set (2d) as a set to increase the power generation amount are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is made long from the existing material to generate electricity. Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various types of energy conservation in a power generation method in which a water turbine (52b) is provided with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sun Various energies of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) aiming to increase power generation by maintaining light in the vicinity of a right angle are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to divide the clamp (80B) tightening long lens (2d) ) To increase the amount of power generation by increasing friction width (3), the series of opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages for energy conservation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, divided into multiple lengths of fasteners (80B) Various types of power generation methods in which a series of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with a lens (2d) as a set and equipped with friction loss reduction means (3) aiming at increased power generation are provided in multiple stages Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and power is generated with a long lens (2d) selected from existing materials. Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross section length lens (2d) The energy of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation Various power generation methods with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) that aim to increase power generation by maintaining sunlight in the vicinity of a right angle Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate power Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long-length lenses (2d) for fastening a fastener (80B). Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and friction loss reduction means aiming to increase power generation by lengthening the selected production length lens (2d) from existing materials ( 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross-section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) close to the right angle of sunlight, etc. + Sunlight heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to maintain heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Friction loss reduction means (3), aiming to increase the power generation amount by increasing the length of the selected production length lens (2d) from existing materials by accelerating the vertical vaporization acceleration of vaporization explosion force + gravitational acceleration in vacuum ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated into the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propulsion vehicle gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of vacuum. Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to set multiple lenses (2d) for fastening with fastener (80B) Various energy conservation cycle coalescence engines of the power generation method in which the opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with the friction loss reducing means (3) aiming to increase the power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Nearly perpendicular + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from existing materials to increase the power generation amount Friction loss Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with a selected cross-section long lens (2d) to water (52b) tube Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased concentrated power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight near right angle Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for maintaining and increasing power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the long lens (2d) for tightening the split fastener (80B) Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (80B) for fastening 2d) are provided as a set, and various types of energy storage are provided for the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reduction means (3) aiming to increase the power generation amount are provided in multiple stages. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected long lens (2d) long from existing materials Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is watered from the existing lens cross section with the selected cross-section long lens (2d) (52b) Various energy conservation cycles of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine having the friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the pipe are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + additional gravitational acceleration in the vertical downward direction, heat insulating long lens (2d) and sunlight Is maintained in the vicinity of a right angle, and various kinds of energy conservation are achieved in a power generation method provided with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) aiming to increase power generation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, long lens (2d) for tightening split fastener (80B) Energy Conservation Cycle of Power Generation Method with Multiple Stages of Opposed-Series Full-Bloom Bouncer Water Turbine and Opposite-Series Full-Bloom Bouncer Gas Turbine with Friction Loss Reduction Means (3) Aiming to Increase Power Generation by Increasing the Width Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward and divided into multiple long lenses with fastening tools (80B) Various energy of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine provided with the friction loss reducing means (3) provided with the set (2d) as a set to increase the power generation amount are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and the selected production length lens (2d) is made long from existing materials Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various types of energy conservation in a power generation method in which a water turbine (52b) is provided with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sun Various energies of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) aiming to increase power generation by maintaining light in the vicinity of a right angle are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Friction loss reduction means (3), aiming to increase the power generation amount by increasing the length of the selected production length lens (2d) from existing materials by accelerating the vertical vaporization acceleration of vaporization explosion force + gravitational acceleration in vacuum ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated into the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of vacuum. Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and friction loss reduction means (3) aiming to increase power generation by lengthening the selected production length lens (2d) from existing materials Various energy storage cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is increased from the existing lens cross section to the water (52b) tube with the selected cross-section long lens (2d). Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum. Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, long lens (2d) for tightening split clamp (80B) ) To increase the amount of power generation by increasing friction width (3), the series of opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages for energy conservation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple lengths of fasteners (80B) Various types of power generation methods in which a series of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with a lens (2d) as a set and equipped with friction loss reduction means (3) aiming at increased power generation are provided in multiple stages Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and power is generated by selecting a selected production length lens (2d) from an existing material Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near-right angle + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected with a long section (2d) from the existing lens cross section The energy of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) in the part approaching vacuum Various power generation methods with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) that aim to increase power generation by maintaining sunlight in the vicinity of a right angle Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) Compressed heat recovery + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward to divide the clamp (80B) Power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing power generation amount by increasing the width of the long lens (2d) is provided in multiple stages. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) Compressed heat recovery + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward, and divided and clamped (80B) A multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase power generation by providing a plurality of attached long lenses (2d) as a set are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Compressive heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select from existing materials Manufacturing lens (2d) The combined energy storage cycle engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) Internal air is compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a cross-section lens (2d) ) In the multi-stage power generation with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming at increasing concentrated power generation amount in the water (52b) pipe with sunlight Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) Internal air is recovered by compressing heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and a long lens that insulates near the vacuum (2d) and a series of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for maintaining the sunlight in the vicinity of a right angle and increasing the amount of power generation Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Close to right angle with sunlight + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration further downward vertically, split fastener (80B) tightening Power generation provided with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward and divided into fasteners (80B) A multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing multiple tightening long lenses (2d) as a set Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, select from existing materials long lens (2d ) And a series of various energy conservation cycle coalescence engines with a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided. . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force + Gravity acceleration in vacuum In 2d), the opposed series full bucket impeller water turbine and the opposed series full bucket propeller gas turbine equipped with friction loss reduction means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe in 2d) are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and the heat insulation length is close to the vacuum Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining the lens (2d) and sunlight near right angles Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to increase the width of long lens (2d) for split clamp (80B) tightening Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) which increases the power generation amount by increasing are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) Combined with various energy conservation cycles of a power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted into water (52b) from the existing lens cross section with a selected cross section long lens (2d) ) Various energy conservation cycle coalescence engine of power generation method provided with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller water turbine equipped with friction loss reducing means (3) aiming at increased concentrated power generation amount in the pipe . 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight at right angles in the part approaching vacuum Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) that is maintained in the vicinity and aims to increase power generation amount organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for fastening the split fastener (80B) Then, various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming to increase the power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward and divided into multiple length lens (2d) for fastening with clamp (80B) Combined engine of various energy conservation cycle of power generation method provided with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller water turbine equipped with friction loss reducing means (3) provided as a set to increase power generation amount . 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Compressive heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and friction is aimed at increasing the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross-section with a long lens (2d) (52b) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing concentrated power generation in the pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) Compressed heat recovery of internal air + Vaporization explosion force in vacuum + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight near right angle The combined energy storage cycle engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) to maintain the power generation and to increase the power generation amount . 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) + Solar power (2) The internal air (28a) is recovered by compressing heat with a heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener ( 80B) Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with friction loss reducing means (3) for increasing power generation by increasing the width of the long lens (2d) for tightening Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) Internal air (28a) with heat pump (1G) recovering compression heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, divided and tightened Opposed series full blade impeller water turbine / opposed in series full blade impeller gas turbine provided with friction loss reducing means (3) which is provided with a plurality of long lenses (2d) tightened with a tool (80B) to increase power generation amount Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to selectively manufacture from existing materials Various energies of a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase the amount of power generation with a long lens (2d) as a large number are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大方法とした各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing lens cross section Various energy storage cycle coalescing engines with a method of increasing the amount of concentrated power generation using sunlight with a long section (2d) and water (52b) pipe. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near the right angle + Solar heater (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and the part approaches vacuum In-series full blade impeller water turbine / opposed in-series full blade impeller gas turbine equipped with a long lens (2d) for heat insulation and friction loss reducing means (3) for maintaining the sunlight in the vicinity of a right angle and aiming at an increase in power generation Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated downward vertically and split Opposing series full blade impeller water turbine / opposed series full blade impeller equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) for tightening the fastener (80B) Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated downward vertically and split And a counter-series full-blade propulsion wheel water turbine / opposite series full-motion equipped with a friction loss reducing means (3) which is provided with a plurality of long-length lenses (2d) for tightening the fastener (80B) to increase the amount of power generation Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated vertically downward, existing Power generation with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation by making the production long lens (2d) long from the material Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated vertically downward, existing Opposite series full blade impeller water turbine / opposite series full blade equipped with friction loss reduction means (3) aiming at increasing concentrated power generation amount to sunlight (52b) pipe with sunlight selected from lens cross section long lens (2d) Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) Internal air (28a) with heat pump (1G) to recover heat compression + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, vacuum A counter-series full blade impeller water turbine / opposite series full-motion equipped with a long lens (2d) for heat insulation near the point and a friction loss reduction means (3) that aims to increase the amount of power generation by maintaining sunlight in the vicinity of a right angle. Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, Opposing in-series full blade impeller water turbine / opposed in-series full moving blade provided with friction loss reducing means (3) for increasing power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engine of power generation method equipped with impeller gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature close to absolute 0 degree + solar heat increase suspension bridge (2b) solar heat increase suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, A counter-series full blade impeller water turbine / opposite series total equipped with friction loss reducing means (3) that is provided with a plurality of long-length lenses (2d) for tightening the fastener (80B) as a set to increase the amount of power generation Various energy storage cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature close to absolute 0 degree + solar heat increase suspension bridge (2b) solar heat increase suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by making the selected production long lens (2d) long from existing materials Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, Opposite series full blade impeller water turbine / opposite series full motion equipped with friction loss reduction means (3) aiming to increase the amount of concentrated power generation from the cross section of the existing lens to the water (52b) pipe with sunlight selected by the long section lens (2d) Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature close to absolute 0 degree + solar heat increase suspension bridge (2b) solar heat increase suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) internal air (28a) compressed heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity accelerated further vertically downward, A counter-series full-blade propulsion turbine water turbine / opposite-series total equipped with a long lens (2d) for heat insulation near the vacuum and a friction loss reduction means (3) that aims to increase the amount of power generation by maintaining sunlight in the vicinity of a right angle. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified Houses Prime + Solar Thermal Increase Suspension Bridge (2b) Nearly Right Angle with Sunlight + Solar heater (2) Internal air (28a) is recovered with compression heat by heat pump (1G) + Explosive force of vaporization + Gravitational acceleration in vacuum is further accelerated vertically and tightened by split fastener (80B) Power generation provided with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified Houses Prime + Solar Thermal Increase Suspension Bridge (2b) Nearly Right Angle with Sunlight + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) Multiple series of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by providing multiple tightening long lenses (2d) as a set Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified Houses Prime + Solar Thermal Increase Suspension Bridge (2b) Nearly Right Angle with Sunlight + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and selected from existing materials ) And a series of various energy conservation cycle coalescence engines with a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines are provided in multiple stages. . 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified Houses Primed + Solar Thermal Suspension Suspension Bridge (2b) Approached at Right Angle to Sunlight + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force + Gravitational acceleration is accelerated vertically downward to select a long lens ( In 2d), the opposed series full bucket impeller water turbine and the opposed series full bucket propeller gas turbine equipped with friction loss reduction means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe in 2d) are provided in multiple stages. Various energy conservation cycle coalescence engine of power generation method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified Houses Primed + Solar Thermal Suspension Suspension Bridge (2b) Approached at Right Angle to Sunlight + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation is long at the part close to vacuum Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining the lens (2d) and sunlight near right angles Various energy storage cycle coalescing engines with different power generation methods 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Light heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward, and split fastener (80B) is tightened Power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) is provided in multiple stages. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Light heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward, divided and tightened with clamp (80B) A multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase power generation by providing a plurality of attached long lenses (2d) as a set are provided in multiple stages. Various energy conservation cycle coalescence engine of power generation method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Light heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and selected from existing materials Long lens (2d) The combined energy storage cycle engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Light heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward to select a long lens (2d) ) In the multi-stage power generation of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming at increasing concentrated power generation amount in the water (52b) pipe Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Light heater (2) Recover internal air (28a) with heat pump (1G) + Accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically, and insulate long lens near the vacuum (2d) and multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with friction loss reducing means (3) that aims to increase the amount of power generation while maintaining sunlight at a right angle. Various energy conservation cycle coalescence engine of power generation method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward Then, the opposed series full blade impeller water turbine / opposed series equipped with the friction loss reducing means (3) aiming to increase the amount of power generation by increasing the width of the long lens (2d) of the divided fastening tool (80B). Various energy storage cycle coalescing engine of power generation method with multi-stage all-wheel impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward Then, an opposed series full blade impeller water turbine equipped with a friction loss reducing means (3) which is provided with a plurality of long lenses (2d) for tightening the fastener (80B) in a divided manner to increase power generation amount. Various energy conservation cycle coalescence engine of power generation method with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward The multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation by making the selected production long lens (2d) long from existing materials Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward Then, the opposed series full blade impeller water turbine / opposite equipped with friction loss reducing means (3) aiming to increase the concentrated power generation amount to the water (52b) tube with sunlight from the existing lens cross section with the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multistage stage turbine blade gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Close to right angle + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward In addition, a long lens (2d) for heat insulation in a part close to vacuum and a friction loss reducing means (3) for maintaining the sunlight in the vicinity of a right angle and aiming to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum Opposing in-series full blade impeller water equipped with friction loss reducing means (3) that accelerates vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Combined engine of various energy conservation cycles of the power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum Opposite series all blades equipped with friction loss reducing means (3) for accelerating vertically downward and dividing to provide a plurality of long lenses (2d) for fastening fasteners (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum Opposed series full blade impeller water turbine / opposed series full blade impeller equipped with friction loss reduction means (3) that accelerates vertically downward and makes the selected production length lens (2d) long from existing materials to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum Opposite series full blade impeller equipped with friction loss reduction means (3) aiming to increase concentrated power generation by accelerating vertically downward from the existing lens cross section to the water (52b) tube with sunlight selected by the long lens section (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) Water (52b) is heated + Vaporization explosion force + Gravity acceleration is added in vacuum Opposite series all blades provided with frictional loss reduction means (3) aiming to increase the amount of power generation by accelerating vertically downward and maintaining a heat insulating long lens (2d) near the right angle in the vicinity of vacuum Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature close to absolute 0 degree + solar heat increase suspension bridge (2b) solar heat increase suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum A counter-series full blade impeller equipped with friction loss reducing means (3) that accelerates further vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum Opposed series full-motion equipped with friction loss reducing means (3) aiming to increase power generation by accelerating further vertically downward and providing a set of multiple long lenses (2d) tightened with fasteners (80B) Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed serial full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum Accelerating further vertically downward, and making the selected production length lens (2d) long from the existing material, and a friction loss reduction means (3) that aims to increase the power generation amount. Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum An opposed series full blade equipped with friction loss reducing means (3) for accelerating downward in the vertical direction and aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with sunlight by the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) water (52b) heated + vaporization explosive force + gravity acceleration in vacuum Opposite series full motion with friction loss reduction means (3) aiming to increase the amount of power generation by accelerating further vertically downward and keeping the heat insulating long lens (2d) near the right angle near the vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of bladed turbine water turbine and opposed series full bladed turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified Houses Prime + Solar Thermal Increase Suspension Bridge (2b) Nearly Right Angle with Sunlight + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward Opposed series full blade impeller water turbine / opposed series full blade impeller equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) for tightening the fastener (80B) Various energy storage cycle coalescing engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified Houses Prime + Solar Thermal Increase Suspension Bridge (2b) Nearly Right Angle with Sunlight + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward And a counter-series full-blade propulsion wheel water turbine / opposite series full-motion equipped with a friction loss reducing means (3) which is provided with a plurality of long-length lenses (2d) for tightening the fastener (80B) and aims to increase the amount of power generation Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified Houses Primed + Solar Thermal Suspension Suspension Bridge (2b) Approached at Right Angle to Sunlight + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Power generation with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation by making the production long lens (2d) long from the material Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Opposite series full blade impeller water turbine / opposite series full blade equipped with friction loss reduction means (3) aiming at increasing concentrated power generation amount to sunlight (52b) pipe with sunlight selected from lens cross section long lens (2d) Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, A counter-series full blade impeller water turbine / opposite series full-motion equipped with a long lens (2d) for heat insulation near the point and a friction loss reduction means (3) that aims to increase the amount of power generation by maintaining sunlight in the vicinity of a right angle. Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Light heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and tightened Opposed series full blade impeller water turbine / opposed series full blade impeller gas equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) for fastening the attachment (80B) Various energy conservation cycle coalescence engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Light heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward and divided Counter series full blade impeller water turbine / opposite series full blade provided with friction loss reducing means (3) for increasing power generation by providing a plurality of long lenses (2d) for tightening a clamp (80B) Various energy storage cycle coalescing engine of power generation method equipped with impeller gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Light heater (2) (2b) Internal air (28a) is compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, existing materials Power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation by making the production length lens (2d) long from Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Light heater (2) (2b) Internal air (28a) is compressed water heat exchanger (2Y) and water (52b) is heated + Vaporization explosive force + Gravitational acceleration is accelerated vertically downward, existing lens Opposite series full blade impeller water turbine / opposite series full blade impeller equipped with friction loss reduction means (3) aiming to increase the amount of concentrated power generation from the cross section to a selected cross length lens (2d) with water (52b) pipe Various energy storage cycle coalescing engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Light heater (2) (2b) Heat internal air (28a) with compressed water heat exchanger (2Y) + Water (52b) + Vaporization explosive force + Gravitational acceleration in vacuum A counter-series all-blade bouncer water turbine / opposed-series all-blade equipped with a long lens (2d) for heat insulation in the close part and friction loss reducing means (3) for maintaining the sunlight in the vicinity of a right angle to increase the amount of power generation Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically Opposing in-series full blade impeller water turbine / opposed in-series full moving blade provided with friction loss reducing means (3) for increasing power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engine of power generation method equipped with impeller gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically A counter-series full blade impeller water turbine / opposite series total equipped with friction loss reducing means (3) which is provided with a plurality of long-length lenses (2d) for tightening the fastener (80B) and aiming to increase the amount of power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by lengthening the selected production long lens (2d) from existing materials Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically Opposite series full blade impeller water turbine / opposite series full motion equipped with friction loss reduction means (3) aiming to increase the amount of concentrated power generation from the cross section of the existing lens to the water (52b) pipe with sunlight selected by the long section lens (2d) Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching a right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically A counter-series full-blade propulsion turbine water turbine / opposed series total equipped with a long lens (2d) for heat insulation in a part close to a vacuum and friction loss reducing means (3) aiming to increase the amount of power generation by maintaining sunlight at a right angle. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating and increasing the width of the long lens (2d) for tightening the split fastener (80B), and the friction loss reduction means (3) aiming to increase the power generation amount. Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Opposed in-series full blade impeller water turbine provided with friction loss reducing means (3) for accelerating and dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation -Various energy conservation cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerate, select series long blade bouncer water turbine / opposite series full blade bounce gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by lengthening selected production length lens (2d) from existing materials Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating the existing series of lenses from a cross-section lens (2d) to a water (52b) tube with sunlight (52b). Various energy conservation cycle coalescence engine of power generation method with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward An opposed series full blade impeller water turbine provided with frictional loss reduction means (3) for accelerating and maintaining a heat insulating long lens (2d) near the right angle in the vicinity of vacuum and increasing the amount of power generation by maintaining sunlight in a right angle -Various energy conservation cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward The opposed series full blade impeller water turbine equipped with a friction loss reducing means (3) that increases the width of the long lens (2d) of the split fastening tool (80B) and increases the power generation amount Various energy conservation cycle coalescence engine of power generation method with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward The counter-series full blade impeller water equipped with friction loss reducing means (3) for accelerating, dividing and providing a plurality of long lenses (2d) for fastening the fastener (80B) and aiming to increase power generation Combined engine of various energy conservation cycles of the power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature close to absolute 0 degree + solar heat increase suspension bridge (2b) solar heat increase suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating to the existing series, the production length lens (2d) is made long and the friction loss reduction means (3) aiming to increase the amount of power generation is provided. Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward The opposed series full blade impeller water turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to the water (52b) tube with sunlight selected from the existing lens cross section with a lens (2d) having a selected cross section length.・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature close to absolute 0 degree + solar heat increase suspension bridge (2b) solar heat increase suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating to a near-vacuum long lens (2d) and the opposed in-series full blade impeller water equipped with friction loss reduction means (3) aiming to increase the amount of power generation by maintaining sunlight in the vicinity of a right angle near the vacuum Combined engine of various energy conservation cycles of the power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified Houses Prime + Solar Thermal Increase Suspension Bridge (2b) Nearly Right Angle with Sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) An opposed series full blade propeller water turbine / opposed series full bucket propeller gas turbine provided with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) for tightening Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified Houses Prime + Solar Thermal Increase Suspension Bridge (2b) Nearly Right Angle with Sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum vertically A counter-series full-blade bouncer water turbine / opposite-series full-blade bouncer gas equipped with friction loss reducing means (3) that is provided with a plurality of long lenses (2d) tightened with attachments (80B) to increase power generation. Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various types of power generation methods in which a multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming at increased power generation with a long production lens (2d) is provided. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-blade propeller gas turbine exhaust compressed air temperature close to absolute 0 ° + full electrification house prime + solar thermal augmentation suspension bridge (2b) close to right angle with sunlight + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight through the selected section long lens (2d) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified Houses Prime + Solar Thermal Increase Suspension Bridge (2b) Nearly Right Angle with Sunlight + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration was accelerated vertically downward to bring it closer to vacuum A counter-series full-blade bouncer water turbine / opposite-series full-blade bouncer gas equipped with a long lens (2d) that is thermally insulated and a friction loss reduction means (3) that aims to increase power generation by maintaining sunlight in the vicinity of a right angle Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener ( 80B) Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with friction loss reducing means (3) for increasing power generation by increasing the width of the long lens (2d) for tightening Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravitational acceleration in vacuum vertically, split and tighten Opposed series full blade impeller water turbine / opposed in series full blade impeller gas turbine provided with friction loss reducing means (3) which is provided with a plurality of long lenses (2d) tightened with a tool (80B) to increase power generation amount Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various energies of a power generation method in which an opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase the amount of power generation with a long lens (2d) as a large number are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Light heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing lens cross section A counter-series full-blade bouncer water turbine / opposite-series full-blade bouncer gas turbine equipped with friction loss reduction means (3) aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight in the cross-section long lens (2d) Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the part approaches vacuum In-series full blade impeller water turbine / opposed in-series full blade impeller gas turbine equipped with a long lens (2d) for heat insulation and friction loss reducing means (3) for maintaining the sunlight in the vicinity of a right angle and aiming at an increase in power generation Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward , Opposed series full blade impeller water turbine / opposed series full motion equipped with friction loss reducing means (3) for increasing power generation by increasing the width of the long lens (2d) for fastening the split fastener (80B) Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward A counter-series full blade impeller water turbine / opposite series equipped with friction loss reducing means (3) that is provided with a plurality of long-length lenses (2d) that are clamped and clamped (80B) in a set to increase the amount of power generation Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward In addition, it is equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by lengthening the selected production long lens (2d) from existing materials Combined with various energy conservation cycle of power generation method. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward From the existing lens cross section, with the selected cross-sectional length lens (2d), the opposed series full blade impeller water turbine / opposed series total equipped with friction loss reducing means (3) aiming to increase the concentrated power generation amount to the water (52b) pipe with sunlight Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward , Opposed series full blade impeller water turbine / opposed series equipped with heat insulating long lens (2d) and friction loss reducing means (3) aiming to increase power generation by maintaining sunlight in the vicinity of a right angle near the vacuum Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward The opposed series full blade impeller water turbine equipped with a friction loss reducing means (3) that increases the width of the long lens (2d) of the split fastening tool (80B) and increases the power generation amount Various energy conservation cycle coalescence engine of power generation method with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward The counter-series full blade impeller water equipped with friction loss reducing means (3) for accelerating, dividing and providing a plurality of long lenses (2d) for fastening the fastener (80B) and aiming to increase power generation Combined engine of various energy conservation cycles of the power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating to the existing series, the production length lens (2d) is made long and the friction loss reduction means (3) aiming to increase the amount of power generation is provided. Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward The opposed series full blade impeller water turbine equipped with friction loss reduction means (3) aiming to increase the amount of concentrated power generation from the existing lens section to the water (52b) pipe with the selected section length lens (2d) from the existing lens section -Various energy conservation cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating to a near-vacuum long lens (2d) and sunlight in the vicinity of a right angle and a friction loss reduction means (3) for increasing power generation while maintaining sunlight in the vicinity of a right angle. Combined engine of various energy conservation cycles of the power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature close to absolute 0 degree + solar heat increase suspension bridge (2b) solar heat increase suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical Opposed in-series full blade impeller water turbine equipped with friction loss reducing means (3) that accelerates downward and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation -Various energy conservation cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature close to absolute 0 degree + solar heat increase suspension bridge (2b) solar heat increase suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical An opposed series full blade impeller equipped with friction loss reducing means (3) that accelerates downward and is divided and provided with a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation amount Various energy conservation cycle coalescence engine of power generation method equipped with water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical Accelerating downward and selecting a long lens (2d) from an existing material to increase the amount of power generation by using a long lens (2d) opposed series full blade impeller water turbine / opposed serial full blade impeller gas Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature close to absolute 0 degree + solar heat increase suspension bridge (2b) solar heat increase suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical Accelerating downward, opposed series full blade impeller water equipped with friction loss reduction means (3) aiming to increase the amount of concentrated power generation from the cross section of the existing lens to the water (52b) pipe with the selected cross section long lens (2d) Combined engine of various energy conservation cycles of the power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature close to absolute 0 degree + solar heat increase suspension bridge (2b) solar heat increase suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle of sunlight + solar heater (2) (2b) heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravity acceleration added vertical A counter-series full blade impeller equipped with frictional loss reduction means (3) that accelerates downward and maintains heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation Various energy conservation cycle coalescence engine of power generation method equipped with water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series Full-Boiled Wind Turbine Gas Turbine Gas Turbine Exhaust Air Compressed Air Temperature Nearly Absolutely 0 Degrees + Fully Electrified Houses Primed + Solar Thermal Suspension Suspension Bridge (2b) Approached at Right Angle to Sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) for fastening the tool (80B) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified Houses Prime + Solar Thermal Increase Suspension Bridge (2b) Nearly Right Angle with Sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and divided A counter-series all-blade propulsion wheel water turbine / opposite-series all-blade propeller wheel equipped with a friction loss reducing means (3) that is provided with a plurality of long-length lenses (2d) for tightening a fastener (80B) and aims to increase power generation Various energy storage cycle coalescing engine of power generation method with multiple stages of gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified Houses Prime + Solar Thermal Increase Suspension Bridge (2b) Nearly Right Angle with Sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials A power generation method in which a multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with friction loss reduction means (3) aiming at an increase in the amount of power generation with a long selection manufacturing long lens (2d) is provided. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified Houses Prime + Solar Thermal Increase Suspension Bridge (2b) Nearly Right Angle with Sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, cross section of existing lens The opposed series full blade impeller water turbine / opposed series full blade impeller gas equipped with friction loss reducing means (3) aiming to increase the amount of power generation concentrated on the water (52b) pipe with sunlight selected from the long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified Houses Prime + Solar Thermal Increase Suspension Bridge (2b) Nearly Right Angle with Sunlight + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to approach vacuum A counter-series full blade impeller water turbine / opposite series full blade impeller equipped with a long lens (2d) for heat insulation at the part and a friction loss reducing means (3) for maintaining the sunlight in the vicinity of a right angle and increasing the power generation amount Various energy storage cycle coalescing engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + battery powered drive various automobiles + solar thermal augmentation suspension bridge (2b) close to perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) An opposed series full blade propeller water turbine / opposed series full bucket propeller gas turbine provided with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) for tightening Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, divided and tightened A counter-series full-blade bouncer water turbine / opposite-series full-blade bouncer gas equipped with friction loss reducing means (3) that is provided with a plurality of long lenses (2d) tightened with attachments (80B) to increase power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various types of power generation methods in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the power generation amount with a long production lens (2d) are provided. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from the existing lens cross section Opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation concentrated in the water (52b) pipe with sunlight by the selected section long lens (2d) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Light heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to bring it closer to vacuum A counter-series full-blade bouncer water turbine / opposite-series full-blade bouncer gas equipped with a long lens (2d) that is thermally insulated and a friction loss reduction means (3) that aims to increase power generation by maintaining sunlight in the vicinity of a right angle Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Increase the vaporization explosive force to the maximum with the solar heater (2) + Add a vaporization explosive force + gravity acceleration in vacuum to the vertical downward direction in the vacuum and add a long lens (80B) 2d) Various energies of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming at increasing the amount of power generation by increasing the width of 2d) are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Increase the vaporization explosive force to the maximum with the solar heater (2) + increase the vaporization explosive force + gravity acceleration in the vacuum vertically further in the vertical direction, and divide and tighten multiple fasteners (80B) A power generation method in which a long lens (2d) is provided as a set and a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine provided with friction loss reduction means (3) aiming at an increase in power generation amount are provided. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Near-right angle + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to make the selected production length lens (2d) long Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar-heat-enhanced suspension bridge (2b) including half-cylinder outer box (77B) Approaching right angle + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected cross section lens (2d) is used to accelerate the sun Various kinds of power generation methods in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe are provided in multiple stages. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with fuel cost 0CO2 exhaust 0 power generation + heat-resisting material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Near-right angle + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and heat insulating long lens (2d) near the vacuum Power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation by maintaining solar and solar light near the right angle Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase the vaporization explosive force to the maximum with the solar heater (2) + Accelerate the vaporization explosive force + gravitational acceleration vertically in the vacuum and tighten the split fastener (80B) Power generation provided with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Increase the vaporization explosive force to the maximum with the solar heater (2) + Accelerate the vaporization explosive force + gravitational acceleration vertically downward in the vacuum, and divide the fastener (80B) A multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing multiple tightening long lenses (2d) as a set Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add the vaporization explosive force + gravity acceleration in the vertical direction downward in the vacuum, select from the existing material and select the production long lens (2d) ) And a series of various energy conservation cycle coalescence engines with a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines are provided in multiple stages. . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vaporization explosive force in vacuum + Gravitational acceleration in the vertical downward direction, select a cross-section long lens ( In 2d), the opposed series full bucket impeller water turbine and the opposed series full bucket propeller gas turbine equipped with friction loss reduction means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe in 2d) are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add the vaporization explosive force + gravity acceleration in the vacuum vertically in the vacuum and lengthen the heat insulation in the part close to the vacuum Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining the lens (2d) and sunlight near right angles Combined with various energy conservation cycle of power generation method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature close to absolute 0 degree + solar heat increase suspension bridge (2b) solar heat increase suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downwards, tightening the split fastener (80B) A series of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the attached long lens (2d) are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature close to absolute 0 degree + solar heat increase suspension bridge (2b) solar heat increase suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at right angles + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) ) Multi-stage opposed series full blade impeller water turbine / opposite series full blade propeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by providing multiple tightened long lenses (2d) as a set Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the right angle to sunlight + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and selected from existing materials Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation with 2d) being long organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at a right angle + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward to select a cross-section long lens from the existing lens cross section In (2d), a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount in the water (52b) pipe in (2d) Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature close to absolute 0 degree + solar heat increase suspension bridge (2b) solar heat increase suspension bridge (2b) enabling vacuum at joint (80A) ) Near the sunlight at a right angle + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in gravity + Gravitational acceleration is accelerated vertically downward, and heat insulation is applied at the part close to vacuum Multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with long lens (2d) and friction loss reduction means (3) aiming to increase power generation by maintaining sunlight near right angle Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified Houses Prime + Solar Thermal Increase Suspension Bridge (2b) Nearly Right Angle with Sunlight + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing power generation and increasing power generation . 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified Houses Prime + Solar Thermal Increase Suspension Bridge (2b) Nearly Right Angle with Sunlight + Increase the vaporization explosive force to the maximum with the solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening the fastener (80B) ) Is provided as a set, and various energy conservation cycles of a power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified Houses Prime + Solar Thermal Increase Suspension Bridge (2b) Nearly Right Angle with Sunlight + Increase the vaporization explosion power to the maximum with the solar heater (2) + Vaporization explosion force in gravity + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from the existing material Various energy conservation cycle coalescence engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified Houses Prime + Solar Thermal Increase Suspension Bridge (2b) Nearly Right Angle with Sunlight + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is accelerated vertically downward, and the sunlight from the existing lens cross-section is selected with the selected cross-section long lens (2d). 52b) Combining various energy conservation cycles of a power generation method in which a multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing concentrated power generation in the pipe is provided. organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Gas Turbine Exhaust Compressed Air Temperature Nearly Absolutely 0 Degree + Fully Electrified Houses Prime + Solar Thermal Increase Suspension Bridge (2b) Nearly Right Angle with Sunlight + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vaporization explosive force in vacuum + Gravitational acceleration Accelerate vertically downward, and insulate the long lens (2d) and sunlight in the part close to the vacuum Various energy conservation cycles of the power generation method in which the opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) which is maintained in the vicinity of the right angle and increases the power generation amount is provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Increase the vaporization explosive force to the maximum with a light heater (2) + vaporize explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) which aims to increase power generation amount by increasing. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Multi-long lens (2d) tightened with fastener (80B) by accelerating vaporization explosion force + gravity acceleration in vacuum additionally vertically downward by light heater (2) Combined with various energy conservation cycles of a power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Increase the vaporization explosive force to the maximum with the light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of power generation by making the selected long lens (2d) long from existing materials Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3). 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Vaporization explosive force increased to maximum with light heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted to water (52b) from the existing lens cross-section with a selected cross-section long lens (2d) ) Various energy conservation cycle coalescence engines of power generation method with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased concentrated power generation amount in the pipe . 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を太陽光と直角に近付ける+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade pusher gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) approached perpendicular to sunlight + sun Light heater (2) increases vaporization explosive force to the maximum + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and heat insulating long lens (2d) and sunlight are perpendicular to the part near the vacuum Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) that is maintained in the vicinity and aims to increase power generation amount organ. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Friction loss reduction means (3) aiming to increase the amount of power generation by accelerating the vaporization explosive force + gravitational acceleration vertically downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines of power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Friction loss reduction means (3) which accelerates vaporization explosive force + gravitational acceleration vertically downward, divides and provides a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and an opposed series full blade impeller equipped with friction loss reduction means (3) aiming to increase power generation by lengthening the selected production length lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen Friction loss reduction means (3) aiming to increase the amount of power generation concentrated on the water (52b) tube with the selected cross-section long lens (2d) by accelerating the vaporization explosive force + gravitational acceleration vertically Various energy storage cycle coalescing engines of power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen Friction loss reduction means (3) which accelerates vaporization explosive force + gravitational acceleration vertically downward and maintains heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation (3 ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Friction loss reduction means (3) aiming to increase the amount of power generation by accelerating the vaporization explosive force + gravitational acceleration vertically downward and increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescing engines of power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Friction loss reduction means (3) which accelerates vaporization explosive force + gravitational acceleration vertically downward, divides and provides a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series all-wheel impeller gas turbine driven with liquid nitrogen or liquid oxygen + solar thermal increase suspension bridge (2b) left and right and up and down with a suspension + solar heater (2) + in vacuum Vaporization explosive force + gravitational acceleration is further accelerated vertically downward, and an opposed series full blade impeller equipped with friction loss reduction means (3) aiming to increase power generation by lengthening the selected production length lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen Friction loss reduction means (3) aiming to increase the amount of power generation concentrated on the water (52b) tube with the selected cross-section long lens (2d) by accelerating the vaporization explosive force + gravitational acceleration vertically Various energy storage cycle coalescing engines of power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Series All-Wheeled Bouncer Gas Turbine Drives with Liquid Nitrogen or Liquid Oxygen Friction loss reduction means (3) which accelerates vaporization explosive force + gravitational acceleration vertically downward and maintains heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum to increase power generation (3 ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum Friction loss reduction means (3) aiming to increase the amount of power generation by accelerating the vaporization explosive force + gravitational acceleration downward in the vertical direction and increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum Friction loss reduction means for accelerating the vaporization explosive force + gravitational acceleration in the vertically downward direction and dividing and providing a set of multiple long lenses (2d) for fastening the fastener (80B) to increase the power generation amount ( 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum Vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, and the opposed series full blades equipped with friction loss reduction means (3) aiming to increase the power generation amount by lengthening the selected production length lens (2d) from the existing material Various energy conservation cycle coalescence engine of power generation method with multiple stages of impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum Friction loss reduction means (3) which accelerates vaporization explosive force + gravitational acceleration vertically downward and aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting equipment + Solar heater (2) + Vacuum Friction loss reduction means that aim to increase power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward and maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and to increase the amount of power generated Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) Compressive heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) which increases the power generation amount by increasing are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically, and tighten the split fastener (80B) Power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing power generation amount by increasing the width of the long lens (2d) is provided in multiple stages. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Accelerating vaporization explosive force + gravitational acceleration in vacuum vertically, long lens for split clamp (80B) tightening ( 2d) Various energies of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming at increasing the amount of power generation by increasing the width of 2d) are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration vertically downward, long lens for split clamp (80B) tightening Various types of power generation methods in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine provided with friction loss reducing means (3) for increasing the amount of power generation by increasing the width of (2d) are provided in multiple stages. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into multiple sets of multiple long lenses (2d) for fastening (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) Combined with various energy conservation cycles of a power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation organ. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically and divide and tighten the clamp (80B) A multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase power generation by providing a plurality of attached long lenses (2d) as a set are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple fasteners (80B) In a power generation method in which a long lens (2d) is provided as a set and an opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with friction loss reduction means (3) aiming to increase power generation is provided in multiple stages. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward and divided into fasteners (80B) A power generation method in which a plurality of long-length lenses (2d) are provided as a set and an opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with friction loss reducing means (3) aiming to increase power generation in multiple stages is provided. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Friction loss reduction means (3) aiming to increase the amount of power generation by increasing the length of the selected production length lens (2d) from existing materials by accelerating vertically downward the vaporization explosive force + gravitational acceleration in vacuum Various energy conservation cycle coalescence engines of the power generation method provided with the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Heat recovery (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating the internal air (28a) with the compressed water heat exchanger (2Y) and heating the water (52b) + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward and selecting from existing materials Long lens (2d) The combined energy storage cycle engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the water (52b) with the compressed air calorie (28b) of the internal air calorie + Accelerate the vaporization explosive force + gravitational acceleration vertically in the vertical direction, select the existing production material from the long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force + gravity acceleration in vacuum additional vertical downward acceleration, select production length lens (2d) is long from existing materials Various energy storage cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation amount. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with the selected cross section long lens (2d) Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is water (52b) from the existing lens cross section with the selected cross section long lens (2d) ) Various energy conservation cycle coalescence engine of power generation method provided with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller water turbine equipped with friction loss reducing means (3) aiming at increased concentrated power generation amount in the pipe . 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y) and heat the water (52b) + accelerate the vaporization explosive force + gravitational acceleration vertically in the vacuum, select the cross-section long lens (2d ) In the multi-stage power generation with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming at increasing concentrated power generation amount in the water (52b) pipe with sunlight Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force + gravitational acceleration in vacuum is accelerated vertically downward, and the sun is selected with a long lens (2d) from the existing lens cross section Various kinds of power generation methods in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe are provided in multiple stages. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward from the existing lens cross section with a selected cross section long lens (2d) A power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount in sunlight (52b) pipes are provided. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressive heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum to increase power generation Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) Compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sunlight at right angle in the part approaching vacuum Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) that is maintained in the vicinity and aims to increase power generation amount organ. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heat the internal air (28a) with the compressed water heat exchanger (2Y), heat the water (52b) + vaporize explosive force in the vacuum + accelerate the gravitational acceleration vertically downward, heat insulation long lens near the vacuum (2d) and a series of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for maintaining the sunlight in the vicinity of a right angle and increasing the amount of power generation Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating the water (52b) with the compressed air calorie (28b) of the internal air calorie + vaporizing explosive force + gravitational acceleration in the vacuum, vertically accelerating vertically downward, heat insulating long lens (2d) Power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation by maintaining solar power and sunlight near right angles Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in gravity + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for heat insulation at the part approaching the vacuum ) And sunlight in the vicinity of a right angle, and a friction loss reducing means (3) aiming at an increase in the amount of power generation is provided. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air Compressed heat recovery + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and opposed series full blade impeller water turbine equipped with friction loss reduction means (3) aiming at the same maximum water production Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships plentiful + Solar heat increase suspension bridge (2b) left and right and up and down with suspension tools + Solar heater (2) Internal air (28a) with a heat pump (1G), recovering compression heat + vaporizing explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and equipped with friction loss reduction means (3) aiming at the same maximum amount of water generation Various energy storage cycle coalescing engines of power generation method with multiple stages of series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating the internal air (28a) with the compressed water heat exchanger (2Y) and heating the water (52b) + vaporizing explosive force in the vacuum + accelerating the gravitational acceleration vertically downward to reduce the friction loss aiming at the same water maximum power generation amount Various energy storage cycle coalescing engines of power generation method provided with multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with means (3). 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravitational acceleration in vacuum is further accelerated vertically downward, and friction loss reducing means (3 ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heat increase suspension bridge (2b) is lifted left and right with lifting tool + Solar heater (2) (2b ) Heating water (52b) with compressed air calorie (28b) + fuel injection combustion + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, friction loss reducing means aiming at maximum water generation with the same amount of water ( 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and reduce friction loss to increase power generation Various energy storage cycle coalescing engines of power generation method provided with multistage stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with means (3). 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided to provide a set of multiple long lenses (2d) for fastening with a fastener (80B), and friction for increasing power generation Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) Opposite equipped with friction loss reduction means (3) aiming to increase the power generation amount by increasing the length of the selected production length lens (2d) from existing materials by accelerating the vaporization explosive force + gravitational acceleration in vacuum vertically Various energy storage cycle coalescing engines of power generation method with multiple stages of series full blade impeller water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and friction loss is aimed at increasing concentrated power generation from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) Various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で海水表面温度7度上昇廃止の方法+揚水ポンプ(1H)で落差増大+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aero solar power generation method of abolishing sea water surface temperature by 7 degrees + head drop increase by pumping pump (1H) + solar heat increase suspension bridge (2b) with left and right up and down etc. + solar heater ( 2) + Vaporization explosive force in vacuum + Gravity acceleration is accelerated vertically downward, and friction is aimed at increasing power generation by maintaining heat insulation long lens (2d) and sunlight at right angles near the vacuum. Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) which increases the power generation amount by increasing are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening (80B) Combined with various energy conservation cycles of a power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation organ. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, aiming to increase power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is taken from the existing lens cross section with a selected cross-sectional length lens (2d) (52b) ) Various energy conservation cycle coalescence engine of power generation method provided with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller water turbine equipped with friction loss reducing means (3) aiming at increased concentrated power generation amount in the pipe . 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up, etc. + Solar heater (2) + Vaporization explosive force + Gravity acceleration in vacuum Accelerate vertically downward, heat insulation long lens (2d) and sunlight at right angle Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) that is maintained in the vicinity and aims to increase power generation amount organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for tightening the split fastener (80B) ) To increase the amount of power generation by increasing friction width (3), the series of opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages for energy conservation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, divided into multiple lengths of fastening tool (80B) Various types of power generation methods in which a series of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with a lens (2d) as a set and equipped with friction loss reduction means (3) aiming at increased power generation are provided in multiple stages Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Left and right up and down etc. with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and selected long lens (2d) is selected from existing materials for power generation Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) The energy of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar power heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and a long lens (2d) for heat insulation is used near the vacuum. Various power generation methods with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) that aim to increase power generation by maintaining sunlight in the vicinity of a right angle Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right and up with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to divide the long lens (80B) 2d) Various energies of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming at increasing the amount of power generation by increasing the width of 2d) are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward and divided into multiple fasteners (80B) In a power generation method in which a long lens (2d) is provided as a set and an opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with friction loss reduction means (3) aiming to increase power generation is provided in multiple stages. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down, etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to make the selected production length lens (2d) long Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up, etc. with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and the sun is selected from the existing lens cross section with the selected cross section long lens (2d) Various kinds of power generation methods in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe are provided in multiple stages. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down, etc. + Solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and a long lens (2d) for heat insulation at the part close to the vacuum Power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation by maintaining solar power and sunlight near right angles Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward to increase the width of the long lens (2d) for split clamp (80B) tightening to generate electricity Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a set of multiple long lenses (2d) for fastening (80B) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the selected production length lens (2d) is made long from existing materials, and friction loss reduction means aiming at increased power generation (3) A combined energy storage cycle engine of an electric power generation method in which an opposed series full blade impeller water turbine and an opposed series full blade impeller gas turbine are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross-section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension Etc. + Solar heater (2) + Vaporization explosive force + Gravity acceleration in vacuum Accelerate vertically downward, and keep the long lens (2d) of heat insulation and sunlight close to right angle near the vacuum. Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate power Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long-length lenses (2d) for fastening a fastener (80B). Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and friction loss reduction means aiming to increase power generation by lengthening the selected production length lens (2d) from existing materials ( 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross-section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする等+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down etc. + Sunlight heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to maintain heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) Then, various energy storage cycle combined engines of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming to increase the power generation amount are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward and divided into a multiple length lens (2d) for fastening with a fastener (80B) Combined engine of various energy conservation cycle of power generation method provided with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller water turbine equipped with friction loss reducing means (3) provided as a set to increase power generation amount . 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and friction is aimed at increasing power generation by making the selected production length lens (2d) long from existing materials Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with loss reduction means (3). 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) (52b) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing concentrated power generation in the pipe are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight near right angle near the vacuum The combined energy storage cycle engine of the power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) to maintain the power generation and to increase the power generation amount . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Left and right and up with a hanging tool + solar heater (2) + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, long lens (2d) for tightening split fastener (80B) Energy Conservation Cycle of Power Generation Method with Multiple Stages of Opposed-Series Full-Bloom Bouncer Water Turbine and Opposite-Series Full-Bloom Bouncer Gas Turbine with Friction Loss Reduction Means (3) Aiming to Increase Power Generation by Increasing the Width Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Left and right and up with a hanging tool + solar heater (2) + vaporization explosive force in vacuum + additional acceleration of gravity acceleration vertically downward, divided into multiple long lenses for fastening (80B) Various energy of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine provided with the friction loss reducing means (3) provided with the set (2d) as a set to increase the power generation amount are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is made long from the existing material. Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Various types of energy conservation in a power generation method in which a water turbine (52b) is provided with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation and the sun are close to the vacuum. Various energies of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) aiming to increase power generation by maintaining light in the vicinity of a right angle are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a hanging tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and a long lens (2d) for split fastening (80B) fastening ) To increase the amount of power generation by increasing friction width (3), the series of opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine are provided in multiple stages for energy conservation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into multiple lengths of fastening tool (80B) Various types of power generation methods in which a series of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with a lens (2d) as a set and equipped with friction loss reduction means (3) aiming at increased power generation are provided in multiple stages Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to select a long lens (2d) to be produced from existing materials for power generation Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and sunlight is selected from the cross section of the existing lens with the long lens (2d) The energy of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a hanging tool + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation in the part approaching the vacuum Various power generation methods with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) that aim to increase power generation by maintaining sunlight in the vicinity of a right angle Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to generate power Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and divided into a plurality of long-length lenses (2d) for fastening a fastener (80B). Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and friction loss reduction means aiming to increase power generation by lengthening the selected production length lens (2d) from existing materials ( 3) Various energy conservation cycle coalescence engines of the power generation method provided with a multi-stage opposed series full blade impeller water turbine and opposed series full blade pushwheel gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is concentrated on the water (52b) tube from the existing lens cross-section with the selected cross-section long lens (2d) Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Sunlight heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to maintain heat insulation long lens (2d) and sunlight in the vicinity of a right angle near the vacuum Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and increase the amount of power generation Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for tightening fasteners (80B) to generate electricity Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Friction loss reduction means (3), aiming to increase the power generation amount by increasing the length of the selected production length lens (2d) from existing materials by accelerating the vertical vaporization acceleration of vaporization explosion force + gravitational acceleration in vacuum ) Equipped with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is concentrated into the water (52b) tube with the selected cross-section long lens (2d) from the existing lens cross section Various energy conservation cycle coalescence engines of power generation method provided with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increase. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of vacuum. Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing quantity are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, long lens for split clamp (80B) tightening ( 2d) Various energies of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reducing means (3) aiming at increasing the amount of power generation by increasing the width of 2d) are provided in multiple stages. Conservation cycle coalescence organization. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, divided into multiple fasteners (80B) tightening In a power generation method in which a long lens (2d) is provided as a set and an opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with friction loss reduction means (3) aiming to increase power generation is provided in multiple stages. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward to make the selected production length lens (2d) long Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) Compressive heat recovery of internal air + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward and the sun is selected from the existing lens cross section with the selected cross section length lens (2d) Various kinds of power generation methods in which opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe are provided in multiple stages. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + solar heater (2) internal heat recovery + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, heat insulating long lens near the vacuum (2d) Power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation by maintaining solar power and sunlight near right angles Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar light heater (2) Compressed heat recovery + Evaporative explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split fastener (80B) is tightened Power generation provided with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) A multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing multiple tightening long lenses (2d) as a set Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) Compressive heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select from existing materials Manufacturing lens (2d ) And a series of various energy conservation cycle coalescence engines with a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided. . 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar light heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a cross-section long lens ( In 2d), the opposed series full bucket impeller water turbine and the opposed series full bucket propeller gas turbine equipped with friction loss reduction means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe in 2d) are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar light heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation in the part near the vacuum Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining the lens (2d) and sunlight near right angles Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with the lifting tool + Solar heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to divide the clamp (80B) A series of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the attached long lens (2d) are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) internal air compression heat recovery + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) ) Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing multiple tightened long lenses (2d) as a set Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a hanging tool + Solar heating (2) Compressed heat recovery of the internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a production length lens (existing material) Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation with 2d) being long organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + Solar heater (2) Compressed heat recovery of the internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a long section from the existing lens cross section In (2d), a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount in the water (52b) pipe in (2d) Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting device + Solar heater (2) Compressed heat recovery of the internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to insulate the part close to the vacuum Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with long lens (2d) and friction loss reduction means (3) aiming to increase power generation by maintaining sunlight near right angle Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the power generation . 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with a fastener (80B) ) As a set and various energy conservation cycles of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by selecting a long production lens (2d) from existing materials Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is taken from the existing lens cross section with the selected cross-section long lens (2d) ( 52b) Combining various energy conservation cycles of a power generation method in which a multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing concentrated power generation in the pipe is provided. organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Sunlight heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration added Accelerate vertically downward, heat insulation long lens (2d) and sunlight in the part close to vacuum Various energy conservation cycles of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) that are maintained in the vicinity of a right angle and aim to increase power generation are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Recover internal air compression heat + Vaporization explosive force in vacuum + Gravity acceleration is further accelerated vertically downward to increase the width of long lens (2d) for split clamp (80B) tightening Various energy conservation cycle coalescence engines of power generation method in which opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) which increases the power generation amount by increasing are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Compressed heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening with fastener (80B) Combined with various energy conservation cycles of a power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of power generation by making the selected production length lens (2d) long from existing materials Various energy storage cycle combined engines of power generation method provided with opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is converted into water (52b) from the existing lens cross section with a selected cross section long lens (2d) ) Various energy conservation cycle coalescence engine of power generation method provided with multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller water turbine equipped with friction loss reducing means (3) aiming at increased concentrated power generation amount in the pipe . 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Compressed heat recovery of internal air + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight at right angles in the part approaching vacuum Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) that is maintained in the vicinity and aims to increase power generation amount organ. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) internal heat (28a) compression heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, split fastener (80B) An opposed series full blade propeller water turbine / opposed series full bucket propeller gas turbine provided with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) for tightening Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) Internal air (28a) compressed heat recovery with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, divided and tightened A counter-series full-blade bouncer water turbine / opposite-series full-blade bouncer gas equipped with a friction loss reducing means (3) that is provided with a set of a plurality of long lenses (2d) tightened with an attachment (80B) to increase power generation amount Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) Internal air (28a) compression heat recovery with heat pump (1G) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward and selected from existing materials Various types of power generation methods in which a multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming at increased power generation with a long production lens (2d) is provided. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) internal air (28a) compression heat recovery with heat pump (1G) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward from the existing lens cross section Opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight through the selected section long lens (2d) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) Internal air (28a) with heat pump (1G) compression heat recovery + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward to approach the vacuum A counter-series full-blade bouncer water turbine / opposite-series full-blade bouncer gas equipped with a long lens (2d) that is thermally insulated and a friction loss reduction means (3) that aims to increase power generation by maintaining sunlight in the vicinity of a right angle Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, Opposing in-series full blade impeller water turbine / opposed in-series full moving blade provided with friction loss reducing means (3) for increasing power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, A counter-series full blade impeller water turbine / opposite series total equipped with friction loss reducing means (3) which is provided with a plurality of long-length lenses (2d) for tightening the fastener (80B) and aiming to increase the amount of power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by lengthening the selected production long lens (2d) from existing materials Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, Opposite series full blade impeller water turbine / opposite series full motion equipped with friction loss reduction means (3) aiming to increase the amount of concentrated power generation from the cross section of the existing lens to the water (52b) pipe with sunlight selected by the long section lens (2d) Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Solar power (2) Internal air (28a) with heat pump (1G) heat recovery + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, A counter-series full-blade propulsion turbine water turbine / opposed series total equipped with a long lens (2d) for heat insulation in a part close to a vacuum and friction loss reducing means (3) aiming to increase the amount of power generation by maintaining sunlight at a right angle. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward , Opposed series full blade impeller water turbine / opposed series full motion equipped with friction loss reducing means (3) for increasing power generation by increasing the width of the long lens (2d) for fastening the split fastener (80B) Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward A counter-series full blade impeller water turbine / opposite series equipped with friction loss reducing means (3) that is provided with a plurality of long-length lenses (2d) that are clamped and clamped (80B) in a set to increase the amount of power generation Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward In addition, it is equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by lengthening the selected production long lens (2d) from existing materials Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward From the existing lens cross section, with the selected cross-sectional length lens (2d), the opposed series full blade impeller water turbine / opposed series total equipped with friction loss reducing means (3) aiming to increase the concentrated power generation amount to the water (52b) pipe with sunlight Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right with the lifting tool + solar heater (2) internal heat (28a) with heat pump (1G) heat recovery + vaporization explosive force in vacuum + acceleration of gravity is accelerated further vertically downward , Opposed series full blade impeller water turbine / opposed series equipped with heat insulating long lens (2d) and friction loss reducing means (3) aiming to increase power generation by maintaining sunlight in the vicinity of a right angle near the vacuum Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Explosive force of vaporization in vacuum + Gravitational acceleration is further accelerated vertically downward and split fastener (80B) is tightened A series of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the attached long lens (2d) are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) ) Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing multiple tightened long lenses (2d) as a set Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Recover internal air (28a) with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration accelerated vertically downward, select from existing materials Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation with 2d) being long organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Internal air (28a) with heat pump (1G) recovering heat + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to select a cross-section long lens from the existing lens cross section In (2d), a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount in the water (52b) pipe in (2d) Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) Internal air (28a) with heat pump (1G) recovering compression heat + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, heat insulation at the part approaching vacuum Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with long lens (2d) and friction loss reduction means (3) aiming to increase power generation by maintaining sunlight near right angle Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered with compression heat by heat pump (1G) + Explosive force of vaporization + Gravitational acceleration in vacuum is further accelerated vertically and tightened by split fastener (80B) Power generation provided with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) A multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing multiple tightening long lenses (2d) as a set Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosion force + Gravitational acceleration in vacuum is further accelerated vertically downward and selected from existing materials Long lens (2d ) And a series of various energy conservation cycle coalescence engines with a power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at increased power generation are provided. . 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force + Gravitational acceleration in vacuum is further accelerated vertically downward from the existing lens cross section. In 2d), the opposed series full bucket impeller water turbine and the opposed series full bucket propeller gas turbine equipped with friction loss reduction means (3) aiming at increasing the concentrated power generation amount in the water (52b) pipe in 2d) are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) Internal air (28a) is recovered by compressing heat with heat pump (1G) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the heat insulation is long at the part close to vacuum Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by maintaining the lens (2d) and sunlight near right angles Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerating and increasing the width of the long lens (2d) for tightening the split fastener (80B), and the friction loss reduction means (3) aiming to increase the power generation amount. Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Opposed in-series full blade impeller water turbine provided with friction loss reducing means (3) for accelerating and dividing and providing a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerate, select series long blade bouncer water turbine / opposite series full blade bounce gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by lengthening selected production length lens (2d) from existing materials Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward Accelerating the existing series of lenses from a cross-section lens (2d) to a water (52b) tube with sunlight (52b). Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration added vertically downward An opposed series full blade impeller water turbine provided with frictional loss reduction means (3) for accelerating and maintaining a heat insulating long lens (2d) near the right angle in the vicinity of vacuum and increasing the amount of power generation by maintaining sunlight in the vicinity of a right angle・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum A counter-series full blade impeller equipped with friction loss reducing means (3) that accelerates further vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum Opposed series full-motion equipped with friction loss reducing means (3) aiming to increase power generation by accelerating further vertically downward and providing a set of multiple long lenses (2d) tightened with fasteners (80B) Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum Accelerating further vertically downward, and making the selected production length lens (2d) long from the existing material, and a friction loss reduction means (3) that aims to increase the power generation amount. Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum An opposed series full blade equipped with friction loss reducing means (3) for accelerating downward in the vertical direction and aiming to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) pipe with sunlight by the selected cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) The solar heater (2) (2b) The internal air (28a) is heated by the compressed water heat exchanger (2Y) and the water (52b) is heated + the vaporization explosive force + gravity acceleration in the vacuum Opposite series full motion with friction loss reduction means (3) aiming to increase the amount of power generation by accelerating further vertically downward and keeping the heat insulating long lens (2d) near the right angle near the vacuum Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration Is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) and to provide a friction loss reducing means (3) for increasing the power generation amount. Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration Is further divided vertically and provided with a plurality of long lenses (2d) tightened with a fastener (80B) as a set to provide a friction loss reducing means (3) for increasing power generation amount. Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration Accelerating vertically downward, select production long lens (2d) from existing materials, and increase frictional loss reduction means (3) aiming to increase power generation amount Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration Is added to the existing lens cross section, and the selected cross-sectional length lens (2d) is used to oppose sunlight to the water (52b) tube, which is equipped with friction loss reducing means (3) for increasing the concentrated power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of wing bobbin water turbine and opposed series full blade wing bobbin gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + solar heater (2) (2b) internal air (28a) heated water (52b) with compressed water heat exchanger (2Y) + vaporization explosive force in vacuum + gravity acceleration Is further accelerated vertically downward, and a long lens (2d) for heat insulation is maintained near the vacuum in a portion close to a vacuum, and a friction loss reducing means (3) for maintaining the sunlight in the vicinity of a right angle and aiming at an increase in power generation is provided. Various energy conservation cycle coalescing engines of power generation method with multiple stages of bucket turbine water turbine and opposed series full bucket turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, Opposing in-series full blade impeller water turbine / opposed in-series full moving blade provided with friction loss reducing means (3) for increasing power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, A counter-series full blade impeller water turbine / opposite series total equipped with friction loss reducing means (3) which is provided with a plurality of long-length lenses (2d) for tightening the fastener (80B) and aiming to increase the amount of power generation. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by lengthening the selected production long lens (2d) from existing materials Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, Opposite series full blade impeller water turbine / opposite series full motion equipped with friction loss reduction means (3) aiming to increase the amount of concentrated power generation from the cross section of the existing lens to the water (52b) pipe with sunlight selected by the long section lens (2d) Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y) water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, A counter-series full-blade propulsion turbine water turbine / opposed series total equipped with a long lens (2d) for heat insulation in a part close to a vacuum and friction loss reducing means (3) aiming to increase the amount of power generation by maintaining sunlight at a right angle. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided Opposing series full blade impeller water turbine / opposed series full blade impeller equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) for tightening the fastener (80B) Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated by compressed water heat exchanger (2Y) and water (52b) is heated + vaporized explosive force + gravity acceleration is further accelerated vertically downward and divided And a counter-series full-blade propulsion wheel water turbine / opposite series full-motion equipped with a friction loss reducing means (3) which is provided with a plurality of long-length lenses (2d) for tightening the fastener (80B) to increase the amount of power generation Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Power generation with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation by making the production long lens (2d) long from the material Various energy conservation cycle coalescing engine of the method. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, existing Opposite series full blade impeller water turbine / opposite series full blade equipped with friction loss reduction means (3) aiming at increasing concentrated power generation amount to sunlight (52b) pipe with sunlight selected from lens cross section long lens (2d) Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Internal air (28a) is heated with compressed water heat exchanger (2Y), water (52b) is heated + vaporization explosive force + gravitational acceleration is accelerated in the vertical direction, A counter-series full blade impeller water turbine / opposite series full-motion equipped with a long lens (2d) for heat insulation near the point and a friction loss reduction means (3) that aims to increase the amount of power generation by maintaining sunlight in the vicinity of a right angle. Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum , Opposed series full blade impeller water turbine / opposed series full motion equipped with friction loss reducing means (3) for increasing power generation by increasing the width of the long lens (2d) for fastening the split fastener (80B) Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum A counter-series full blade impeller water turbine / opposite series equipped with friction loss reducing means (3) that is provided with a plurality of long-length lenses (2d) that are clamped and clamped (80B) in a set to increase the amount of power generation Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum In addition, it is equipped with multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by lengthening the selected production long lens (2d) from existing materials Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum From the existing lens cross section, with the selected cross-sectional length lens (2d), the opposed series full blade impeller water turbine / opposed series total equipped with friction loss reducing means (3) aiming to increase the concentrated power generation amount to the water (52b) pipe with sunlight Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum , Opposed series full blade impeller water turbine / opposed series equipped with heat insulating long lens (2d) and friction loss reducing means (3) aiming to increase power generation by maintaining sunlight in the vicinity of a right angle near the vacuum Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward The opposed series full blade impeller water turbine equipped with a friction loss reducing means (3) that increases the width of the long lens (2d) of the split fastening tool (80B) and increases the power generation amount Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward The counter-series full blade impeller water equipped with friction loss reducing means (3) for accelerating, dividing and providing a plurality of long lenses (2d) for fastening the fastener (80B) and aiming to increase power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating to the existing series, the production length lens (2d) is made long and the friction loss reduction means (3) aiming to increase the amount of power generation is provided. Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward The opposed series full blade impeller water turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount to the water (52b) tube with sunlight selected from the existing lens cross section with a lens (2d) having a selected cross section length.・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosion force in vacuum + Gravity acceleration added vertically downward Accelerating to a near-vacuum long lens (2d) and the opposed in-series full blade impeller water equipped with friction loss reduction means (3) aiming to increase the amount of power generation by maintaining sunlight in the vicinity of a right angle in the vicinity of the vacuum Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically Opposed in-series full blade impeller water turbine equipped with friction loss reduction means (3) that accelerates downward and increases the width of the long lens (2d) for fastening the split fastener (80B) to increase the amount of power generation・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically An opposed series full blade impeller equipped with friction loss reducing means (3) that accelerates downward and is divided and provided with a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically Accelerating downward and selecting a long lens (2d) from an existing material to increase the amount of power generation by using a long lens (2d) opposed series full blade impeller water turbine / opposed serial full blade impeller gas Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically Accelerating downward, opposed series full blade impeller water equipped with friction loss reduction means (3) aiming at increasing concentrated power generation amount to the water (52b) tube with sunlight selected from the existing lens cross section with a long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) (2b) Heat of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration added vertically A counter-series full blade impeller equipped with friction loss reducing means (3) that accelerates downward and maintains heat insulation long lens (2d) in the vicinity of the vacuum and sunlight in the vicinity of a right angle to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degrees + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Accelerating gravitational acceleration vertically downward, split tightening Opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) for fastening the tool (80B) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating of water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Accelerating gravity acceleration additional vertically downward and dividing A counter-series full blade impeller water turbine / opposite series full-blade propeller wheel provided with a friction loss reducing means (3) provided with a set of multiple long lenses (2d) for tightening a fastener (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials A power generation method in which an opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase the amount of power generation with a long selection manufacturing long lens (2d) is provided in multiple stages. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, cross section of existing lens The opposed series full blade impeller water turbine / opposed serial full blade impeller gas equipped with friction loss reducing means (3) that aims to increase the amount of power generation concentrated in the water (52b) pipe with sunlight selected from the long lens (2d) Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Sunlight heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downwards, approaching vacuum A counter-series full-blade bouncer water turbine / opposite series full-blade bouncer equipped with a long lens (2d) for heat insulation at the part and friction loss reduction means (3) for maintaining the sunlight in the vicinity of a right angle and aiming at an increase in power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) An opposed series full blade propeller water turbine / opposed series full bucket propeller gas turbine provided with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) for tightening Various energy storage cycle coalescing engines with multiple stages of power generation methods. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) of internal air calorie + vaporizing explosive force in vacuum + accelerating gravitational acceleration vertically downward, split and tighten A counter-series full-blade bouncer water turbine / opposite-series full-blade bouncer gas equipped with a friction loss reducing means (3) that is provided with a set of a plurality of long lenses (2d) tightened with an attachment (80B) to increase power generation amount Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and selected from existing materials Various types of power generation methods in which a multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming at increased power generation with a long production lens (2d) is provided. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force + gravity acceleration in vacuum Opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight through the selected section long lens (2d) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) of internal air calorie + Vaporization explosive force in vacuum + Gravitational acceleration was accelerated vertically downward to bring it closer to vacuum A counter-series full-blade bouncer water turbine / opposite-series full-blade bouncer gas equipped with a long lens (2d) that is thermally insulated and a friction loss reduction means (3) that aims to increase power generation by maintaining sunlight in the vicinity of a right angle Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward In addition, the opposed series all-blade propulsion wheel water turbine / opposed series all equipped with friction loss reducing means (3) that increases the width of the long lens (2d) for fastening the divided fastener (80B) to increase the power generation amount Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward In addition, the opposed series full blade impeller water turbine / opposite equipped with friction loss reducing means (3) that is provided with a set of multiple long lenses (2d) for tightening the fasteners (80B) and aiming to increase power generation Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward The multi-stage opposed series full-blade bouncer water turbine and opposed series full-blade bouncer gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by lengthening the selected production long lens (2d) from existing materials Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward From the existing lens cross section, the opposed series full blade impeller water turbine / opposed series equipped with friction loss reducing means (3) aiming to increase the amount of concentrated power generation from the cross section of the existing lens to the water (52b) pipe with sunlight selected from the long lens (2d) Various energy storage cycle coalescing engine of power generation method with multi-stage all-blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right and up + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration further vertically downward In addition, a long-insulated lens (2d) near the vacuum and a friction loss reducing means (3) that maintains sunlight in the vicinity of a right angle to increase the amount of power generation. Combined engine of various energy conservation cycle of power generation method with multistage turbine blade turbines in series. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically Opposed in-series full blade impeller water turbine equipped with friction loss reduction means (3) that accelerates downward and increases the width of the long lens (2d) for fastening the split fastener (80B) to increase the amount of power generation・ Various energy storage cycle coalescence engine of power generation method equipped with opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically An opposed series full blade impeller equipped with friction loss reducing means (3) that accelerates downward and is divided and provided with a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically Accelerating downward and selecting a long lens (2d) from an existing material to increase the amount of power generation by using a long lens (2d) opposed series full blade impeller water turbine / opposed serial full blade impeller gas Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically Accelerating downward, opposed series full blade impeller water equipped with friction loss reduction means (3) aiming at increasing concentrated power generation amount to the water (52b) tube with sunlight selected from the existing lens cross section with a long lens (2d) Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Sunlight heater (2) (2b) Heat water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravity acceleration added vertically A counter-series full blade impeller equipped with friction loss reducing means (3) that accelerates downward and maintains heat insulation long lens (2d) in the vicinity of the vacuum and sunlight in the vicinity of a right angle to increase the amount of power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added Opposing in-series full blade impeller water equipped with friction loss reducing means (3) that accelerates vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and opposed series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added Opposite series all blades equipped with friction loss reducing means (3) for accelerating vertically downward and dividing to provide a plurality of long lenses (2d) for fastening fasteners (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added Opposed series full blade impeller water turbine / opposed series full blade impeller equipped with friction loss reduction means (3) that accelerates vertically downward and makes the selected production length lens (2d) long from existing materials to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added Opposite series full blade impeller equipped with friction loss reduction means (3) aiming to increase concentrated power generation by accelerating vertically downward from the existing lens cross section to the water (52b) tube with sunlight selected by the long lens section (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of water turbine and opposed series full blade impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Evaporative explosive force in vacuum + Gravity acceleration added Opposite series all blades provided with frictional loss reduction means (3) aiming to increase the amount of power generation by accelerating vertically downward and maintaining a heat insulating long lens (2d) near the right angle in the vicinity of vacuum Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and opposed series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Opposing series full blade impeller water turbine / opposed series full blade impeller gas equipped with friction loss reducing means (3) for increasing power generation by increasing the width of the long lens (2d) for tightening the attachment (80B) Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided Counter series full blade impeller water turbine / opposite series full blade provided with friction loss reducing means (3) for increasing power generation by providing a plurality of long lens (2d) for tightening the clamp (80B) Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, existing materials Power generation method provided with multistage stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation by making the production length lens (2d) long from Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward, existing lens Opposed series full blade impeller water turbine / opposed series full blade impeller equipped with friction loss reduction means (3) aiming to increase the amount of power generation concentrated on the water (52b) tube with sunlight selected from the cross-section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Accelerating gravity acceleration vertically downward A counter-series full blade impeller water turbine / opposite series full-blade equipped with a long lens (2d) for heat insulation in the close part and friction loss reducing means (3) for maintaining the sunlight in the vicinity of a right angle to increase power generation Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and split tightening Opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) tightening the tool (80B) Various energy storage cycle coalescence engine of the power generation method provided in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward and divided A counter-series full blade impeller water turbine / opposite series full-blade propeller wheel provided with a friction loss reducing means (3) provided with a set of multiple long lenses (2d) for tightening a fastener (80B) to increase power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward from existing materials A power generation method in which an opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with a friction loss reducing means (3) aiming to increase the amount of power generation with a long selection manufacturing long lens (2d) is provided in multiple stages. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, cross-section of existing lens The opposed series full blade impeller water turbine / opposed serial full blade impeller gas equipped with friction loss reducing means (3) that aims to increase the amount of power generation concentrated in the water (52b) pipe with sunlight selected from the long lens (2d) Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Solar heater (2) (2b) Heating water (52b) with compressed air calorie (28b) + Fuel injection and combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downwards closer to vacuum A counter-series full-blade bouncer water turbine / opposite series full-blade bouncer equipped with a long lens (2d) for heat insulation at the part and friction loss reduction means (3) for maintaining the sunlight in the vicinity of a right angle and aiming at an increase in power generation Various energy conservation cycle coalescence engine of power generation method with multiple stages of gas turbines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, long lens for split clamp (80B) tightening Various types of power generation methods in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine provided with friction loss reducing means (3) for increasing the amount of power generation by increasing the width of (2d) are provided in multiple stages. Energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) A power generation method in which a plurality of long-length lenses (2d) are provided as a set and an opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine provided with friction loss reducing means (3) aiming to increase power generation in multiple stages is provided. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward to select a long lens (2d) from the existing material Various energy storage cycle coalescence engines of the power generation method provided with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation amount. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left and right up and down + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and from existing lens cross section with selected cross section length lens (2d) A power generation method in which a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount in sunlight (52b) pipes are provided. Various energy conservation cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電で燃料費0CO2排気0発電にする方法+耐熱材(2A)断熱材(2c)半筒外箱(77B)を含めた太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation with fuel cost 0CO2 exhaust 0 power generation + heat-resistant material (2A) heat insulating material (2c) solar thermal augmentation suspension bridge (2b) including half-cylinder outer box (77B) Left / right / up / down + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) ) And sunlight in the vicinity of a right angle, and a friction loss reducing means (3) aiming at an increase in the amount of power generation is provided. Various energy conservation cycle coalescing engines. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) Lift the left and right and up with the lifting tool + Increase the vaporization explosive force to the maximum with the solar heater (2) + Accelerate the vaporization explosive force + gravitational acceleration in vacuum vertically and tighten the split fastener (80B) A series of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the attached long lens (2d) are provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Left and right and up with the lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward and divided into fasteners (80B) ) Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing multiple tightened long lenses (2d) as a set Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature is brought close to absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened by joint (80A) + Increase / decrease the vaporization explosive force to the maximum with a solar heater (2) + Add vaporization explosive force in gravity + Gravitational acceleration in the vertical downward direction, select from existing materials Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation with 2d) being long organ. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase and decrease the vaporization explosion force to the maximum with the solar heater (2) + Add vaporization explosion force in gravity + Gravitational acceleration in the vertical downward direction, select a cross-section long lens from the existing lens cross section In (2d), a multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reduction means (3) aiming to increase the concentrated power generation amount in the water (52b) pipe in (2d) Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で長大とする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaching absolute 0 ° + solar thermal augmented suspension bridge (2b) solar thermal augmented suspension bridge (2b) lengthened with joint (80A) + Increase / decrease the vaporization explosion force with the solar heater (2) + Increase vaporization explosion force + gravitational acceleration in the vacuum vertically in the vacuum, heat insulation in the part close to the vacuum Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with long lens (2d) and friction loss reduction means (3) aiming to increase power generation by maintaining sunlight near right angle Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left, right, up and down with a lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, split fastener (80B) Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the long lens (2d) Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with the lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into fasteners ( 80B) Multi-stage opposed series full blade impeller water turbine / opposed series full blade propeller gas turbine equipped with friction loss reduction means (3) aiming to increase power generation by providing multiple tightened long lenses (2d) as a set Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and selected from existing materials Various energy conservation cycles of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine provided with the friction loss reduction means (3) aiming at increasing the amount of power generation with a long (2d) are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) increases vaporization explosive force to the maximum + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and selected cross-section length from existing lens cross-section Multi-stage counter series full blade impeller water turbine / opposite series full blade propeller gas turbine equipped with friction loss reduction means (3) aiming to increase the amount of power generation concentrated on the water (52b) pipe with sunlight through the lens (2d) Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電の対向直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+継手(80A)で真空可能にする太陽熱増大吊橋(2b)太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation opposed series full blade impeller gas turbine exhaust compressed air temperature approaches 0 degree absolute + solar-enhanced suspension bridge (2b) solar-enhanced suspension bridge (2b) enabling vacuum at joint (80A) ) To the left and right and up and down with a lifting tool + Solar heater (2) increases vaporization explosion force to the maximum + Vaporization explosion force in vacuum + Gravitational acceleration is accelerated vertically downward to insulate the part close to the vacuum Multi-stage opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with a long lens (2d) and a friction loss reducing means (3) that aims to increase power generation by maintaining sunlight in the vicinity of a right angle Various energy conservation cycle coalescence engine of the power generation method provided in. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is further accelerated vertically downward, and the long lens (2d) for tightening the split fastener (80B) Combining various energy conservation cycles of a power generation method with multiple stages of opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width organ. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided into multiple long lenses (80B) tightened ( 2d) are provided as a set, and various types of energy storage are provided for the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine equipped with the friction loss reduction means (3) aiming to increase the power generation amount are provided in multiple stages. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase in vaporization and explosion force to maximum with solar heater (2) + Vaporization and explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production lens (2d) long from existing materials Various energy conservation cycle coalescing engines of the power generation method in which the opposed series full-blade bouncer water turbine and the opposed series full-blade bouncer gas turbine equipped with the friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vapor explosive force in the vacuum + Gravitational acceleration to accelerate vertically downward, and water from the existing lens cross section with the selected cross section long lens (2d) (52b) Various energy conservation cycles of the power generation method in which the opposed series full blade impeller water turbine and the opposed series full blade impeller gas turbine having the friction loss reducing means (3) aiming at increasing the concentrated power generation amount in the pipe are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電の直列全動翼弾み車ガスタービンの排気圧縮空気温度を絶対0度に近付ける+全面電化住宅全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation series full-wing blade push-wheel gas turbine exhaust compressed air temperature close to absolute 0 degree + full electrification house prime + solar heat increase suspension bridge (2b) left and right and up and down with suspension + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is accelerated vertically downward, and the long lens (2d) for heat insulation and sunlight in the part close to the vacuum Is maintained in the vicinity of a right angle, and various kinds of energy conservation are achieved in a power generation method provided with multiple stages of opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reduction means (3) aiming to increase power generation. Cycle coalescence engine. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) Various energy conservation cycle coalescence engines of power generation method with multiple stages of opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the power generation . 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increase the vaporization explosive force to the maximum with the solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is further accelerated vertically downward and divided into multiple long lenses (2d) for fastening the fastener (80B) ) As a set and various energy conservation cycles of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) aiming at increased power generation are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and the selected production length lens (2d) is lengthened from the existing material to increase the power generation amount Various energy conservation cycle coalescence engine of power generation method provided with opposed series full blade impeller water turbine and opposed series full blade impeller gas turbine equipped with target friction loss reducing means (3) in multiple stages. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increase the vaporization explosive force to the maximum with the solar heater (2) + Vaporization explosive force in the vacuum + Gravitational acceleration is accelerated vertically downward, and the sunlight from the existing lens cross section with the selected cross-section long lens (2d) ( 52b) Combining various energy conservation cycles of a power generation method in which a multi-stage opposed series full blade impeller water turbine / opposed series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing concentrated power generation in the pipe is provided. organ. 理論最良エンジン水力空気力太陽光発電対向直列全動翼弾み車ガスタービンを液体窒素や液体酸素でも駆動+蓄電池駆動各種自動車類全盛にする+太陽熱増大吊橋(2b)を吊具で左右上下にする+太陽光加熱器(2)で気化爆発力最大に増大+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した対向直列全動翼弾み車水タービン・対向直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic photovoltaic power generation opposed series full-blade propeller gas turbine driven with liquid nitrogen and liquid oxygen + storage battery driven various automobiles primed + solar thermal augmentation suspension bridge (2b) left and right and up and down + Increase the vaporization explosive force to the maximum with the solar heater (2) + Add vaporization explosive force in vacuum + Gravitational acceleration Accelerate vertically downward, and insulate the long lens (2d) and sunlight in the part close to the vacuum Various energy conservation cycles of a power generation method in which opposed series full blade impeller water turbines and opposed series full blade impeller gas turbines equipped with friction loss reducing means (3) that are maintained in the vicinity of a right angle and aim to increase power generation are provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation Preventing Global Warming + Vaporization Explosive Force in Vacuum + Gravity Acceleration Accelerates Vertically Downward, Split Fastener (80B) Fastening Long Lens (2d) Engines with various energy conservation cycles in a power generation method with multiple stages of series full blade impeller water turbine / series full blade impeller gas turbine equipped with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the engine . 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro-Aero Solar Photovoltaic Generation Method to Prevent Global Warming + Vaporization Explosive Force in Vacuum + Gravity Acceleration is further accelerated vertically downward and divided into multiple long lenses with fastening tools (80B) Various energy storage cycles of the power generation method in which the series full blade impeller water turbine and the series full blade impeller gas turbine provided with the friction loss reducing means (3) provided with the set (2d) as a set are provided in multiple stages Combined organization. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro aerodynamic Solar power generation method to prevent global warming + Vaporization explosion force in vacuum + Gravity acceleration is accelerated vertically downward, and selected production length lens (2d) from existing material is made long and power generation amount Combined engine of various energy conservation cycles of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine provided with friction loss reducing means (3) aiming at increase are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-pneumatic solar power generation method to prevent global warming + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is selected from the existing lens cross section with the selected cross-section long lens (2d) Combined with various energy conservation cycles of a power generation method in which a series full blade impeller water turbine / series full blade impeller gas turbine equipped with a friction loss reducing means (3) for increasing concentrated power generation in a water (52b) pipe is provided in multiple stages. organ. 理論最良エンジン水力空気力太陽光発電で地球温暖化防止する方法+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-pneumatic solar power generation to prevent global warming + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, heat insulation long lens (2d) and sun Various energy conservation cycles of a power generation method in which a series full blade impeller water turbine / series full blade impeller gas turbine equipped with a friction loss reduction means (3) that maintains light in the vicinity of a right angle and aims to increase power generation is provided in multiple stages. Combined organization. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, split fastener (80B ) In-line full blade impeller water turbine and in-series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the long lens (2d) for tightening were provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, divided and clamped (80B) A series of all-blade bouncer water turbine and series all-blade bouncer gas turbines equipped with a friction loss reducing means (3) that is provided with a plurality of tightened long lenses (2d) as a set to increase power generation in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward and selected from existing materials Combined with various energy conservation cycles of a power generation method in which a series full blade impeller water turbine / series full blade impeller gas turbine equipped with a friction loss reduction means (3) aiming to increase the amount of power generation with a long lens (2d) is provided in multiple stages organ. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation with CO2 Exhaust Zero Power Generation + Solar Heater (2) + Vaporization Explosive Force in Vacuum + Gravitational Acceleration Accelerates Vertically Downward, Selects Cross Section from Existing Lens Cross Section A series of all-blade bouncer water turbines and a series all-blade bouncer gas turbines equipped with friction loss reduction means (3) aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight through the long lens (2d) are provided in multiple stages. Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with zero CO2 emissions + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward at the part approaching the vacuum A series of all-blade bouncer water turbines and series all-blade bouncer gas turbines equipped with a heat insulating long lens (2d) and a friction loss reduction means (3) that aims to increase power generation by maintaining sunlight in the vicinity of a right angle in multiple stages. Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is further accelerated vertically downward, split fastener (80B ) In-line full blade impeller water turbine and in-series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase power generation by increasing the width of the long lens (2d) for tightening were provided in multiple stages. Various energy storage cycle coalescing engines for power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + gravity acceleration is accelerated vertically downward, divided and clamped (80B) A series of all-blade bouncer water turbine and series all-blade bouncer gas turbines equipped with a friction loss reducing means (3) that is provided with a plurality of tightened long lenses (2d) as a set to increase power generation in multiple stages Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-pneumatic solar power generation method with zero CO2 exhaust + solar heater (2) + vaporization explosive force in vacuum + acceleration of gravity is accelerated vertically downward and selected from existing materials Combined with various energy conservation cycles of a power generation method in which a series full blade impeller water turbine / series full blade impeller gas turbine equipped with a friction loss reduction means (3) aiming to increase the amount of power generation with a long lens (2d) is provided in multiple stages organ. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical Best Engine Hydro / Aerodynamic Solar Power Generation with CO2 Exhaust Zero Power Generation + Solar Heater (2) + Vaporization Explosive Force in Vacuum + Gravitational Acceleration Accelerates Vertically Downward, Selects Cross Section from Existing Lens Cross Section A series of all-blade bouncer water turbines and a series all-blade bouncer gas turbines equipped with friction loss reduction means (3) aiming to increase the amount of concentrated power generation in the water (52b) pipe with sunlight through the long lens (2d) are provided in multiple stages. Various energy storage cycle coalescing engines with different power generation methods. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする方法+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with zero CO2 emissions + solar heater (2) + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward at the part approaching the vacuum A series of all-blade bouncer water turbines and series all-blade bouncer gas turbines equipped with a heat insulating long lens (2d) and a friction loss reduction means (3) that aims to increase power generation by maintaining sunlight in the vicinity of a right angle in multiple stages. Various energy storage cycle coalescing engines of the power generation method provided. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward In addition, the series all blade impeller water turbine / series all blades provided with friction loss reducing means (3) for increasing the power generation amount by increasing the width of the long lens (2d) for tightening the split fastener (80B) Various energy storage cycle coalescence engine of power generation method provided with multi-stage impeller gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward In addition, a series of all-blade propulsion wheel water turbine / series in series equipped with friction loss reduction means (3) that is divided and provided with a plurality of long lenses (2d) tightened with a fastener (80B) to increase power generation amount Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aero solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward In addition, a series full blade impeller water turbine and a series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming to increase the amount of power generation with a long selection manufacturing long lens (2d) from existing materials are provided in multiple stages. Various energy conservation cycle coalescence engine of power generation method. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward In addition, a series full blade impeller water turbine / series full motion equipped with friction loss reducing means (3) aiming to increase the amount of concentrated power generation from the cross section of the existing lens to the water (52b) pipe with sunlight of the selected cross section long lens (2d) Various energy storage cycle coalescence engine of power generation method with multistage blade turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward In addition, in the part close to the vacuum, a heat insulating long lens (2d) and a friction loss reducing means (3) for maintaining the sunlight in the vicinity of a right angle and aiming at an increase in the amount of power generation are provided. Various energy conservation cycle coalescence engine of power generation method with multiple stages of moving blade gas turbine gas turbine. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration A series of full blade impeller water equipped with friction loss reducing means (3) that accelerates further vertically downward and increases the width of the long lens (2d) for tightening the split fastener (80B) to increase the power generation amount. Combined engine of various energy conservation cycle of power generation method with multiple stages of turbines and in-series full blade impeller gas turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Friction loss reduction means (3) aiming to increase the amount of power generation by accelerating the vaporization explosive force + gravitational acceleration downward in the vertical direction and increasing the width of the long lens (2d) for tightening the split fastener (80B) A combined energy storage cycle engine of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine equipped with multiple stages are provided. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward to increase the width of the long lens (2d) for tightening the split fastener (80B) to increase the amount of power generation Various energy storage cycle coalescence engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine equipped with a target friction loss reduction means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b Friction loss aiming to increase power generation by increasing the width of the long lens (2d) for tightening the split fastener (80B) by accelerating the vaporization explosive force + gravitational acceleration in the vacuum + heating in vacuum + Various energy storage cycle combined engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine equipped with a reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割締付具(80B)締付の長レンズ(2d)の幅を増大して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated further vertically downward, and the width of the long lens (2d) for tightening the split fastener (80B) is increased to increase the amount of power generated Various energy storage cycle combined engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine equipped with loss reduction means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration A series of all rotor blades provided with friction loss reducing means (3) that accelerates further vertically downward and is divided and provided with a set of multiple long lenses (2d) for fastening fasteners (80B) to increase power generation amount Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and serial all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Friction loss reduction means for accelerating the vaporization explosive force + gravitational acceleration in the vertically downward direction and dividing and providing a set of multiple long lenses (2d) for fastening the fastener (80B) to increase the power generation amount ( 3) Combined engine of various energy storage cycles of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine provided with 3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, divided into multiple long lenses (2d) for fastening fasteners (80B), and a set of power generation Combined engine of various energy conservation cycles of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine provided with friction loss reducing means (3) aiming at increase are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward and divided to provide a set of multiple long lenses (2d) for fastening the fastener (80B) to increase power generation Various energy storage cycle combined engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine equipped with friction loss reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、分割して締付具(80B)締付の複数長レンズ(2d)をセットで設けて発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + Vaporization explosion force in vacuum + Gravitational acceleration is further accelerated vertically downward, and a plurality of long lenses (2d) tightened with a fastener (80B) are provided as a set to increase power generation Various energy storage cycle coalescence engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine equipped with a target friction loss reduction means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration Accelerating further vertically downward and selecting a long lens (2d) from the existing material to increase the amount of power generation by increasing the length of the production long lens (2d) Series all blade impeller water turbine / series all blade impeller gas Various energy storage cycle coalescing engine of power generation method with multiple stages of turbines. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum In-line full blade impeller equipped with friction loss reduction means (3) aiming to increase power generation by lengthening the selected production length lens (2d) from existing materials by accelerating the vaporization explosive force + gravitational acceleration in the inside Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Friction loss reduction means (3) that heats water (52b) + vaporization explosive force in vacuum + acceleration of gravitational acceleration is further accelerated vertically downward to increase the amount of power generation by making the selected production length lens (2d) long from existing materials A combined energy storage cycle engine of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine equipped with multiple stages are provided. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b )) + Friction loss reduction means (3) aiming to increase the amount of power generation by increasing the length of the selected production length lens (2d) from existing materials by accelerating the vaporization explosive force + gravitational acceleration in the vacuum vertically Combined engine of various energy conservation cycle of power generation method with series full bucket impeller water turbine and series full bucket flywheel gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存材料から選択製造長レンズ(2d)を長大として発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is accelerated vertically downward, and the friction loss reduction means (3) is aimed at increasing the power generation amount by making the selected production length lens (2d) long from existing materials Combined engine of various energy conservation cycle of the power generation method provided with the series full blade impeller water turbine and the series full blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration A series of all blade impellers equipped with friction loss reduction means (3) that accelerates further vertically downward, and aims to increase the amount of concentrated power generation from the existing lens cross section to the water (52b) tube with sunlight selected from the cross section long lens (2d) Various energy conservation cycle coalescence engine of power generation method with water turbine and series all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Friction loss reduction means (3) which accelerates vaporization explosive force + gravitational acceleration vertically downward and aims to increase the concentrated power generation amount from the existing lens cross section to the water (52b) pipe with the selected cross section long lens (2d) ) Equipped with a series of all blade impeller water turbines and series all blade impeller gas turbines in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + Vaporization explosive force in vacuum + Gravitational acceleration is further accelerated vertically downward, and sunlight is increased to the water (52b) tube from the existing lens cross section with the selected cross section long lens (2d). Combined engine of various energy conservation cycles of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine equipped with friction loss reducing means (3) aiming at 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and sunlight is applied to the water (52b) tube from the existing lens cross-section with a selected cross-section long lens (2d) Friction that aims to increase the amount of concentrated power generation Various energy storage cycle combined engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine equipped with loss reduction means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、既存レンズ断面から選択断面長レンズ(2d)で太陽光を水(52b)管に集中発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, aiming to increase the amount of concentrated power generation from the existing lens cross-section to the water (52b) tube with the selected cross-section long lens (2d) Various energy storage cycle combined engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine equipped with friction loss reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気を圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Compression heat recovery of internal air + Vaporization explosive force + Gravitational acceleration A series of all blades provided with frictional loss reduction means (3) aiming to increase the amount of power generation by accelerating further vertically downward and maintaining a heat insulating long lens (2d) in the vicinity of the vacuum and maintaining sunlight in the vicinity of a right angle Various energy conservation cycle coalescence engine of power generation method equipped with impeller water turbine and serial all blade impeller gas turbine in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)内部空気(28a)を熱ポンプ(1G)で圧縮熱回収+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro / pneumatic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) Internal air (28a) is compressed heat recovery with heat pump (1G) + Vacuum Friction loss reduction means that aim to increase power generation by accelerating vaporization explosive force + gravitational acceleration vertically downward and maintaining heat insulation long lens (2d) and sunlight near right angle in the part close to vacuum 3) Combined engine of various energy storage cycles of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine provided with 3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気(28a)を圧縮水熱交換機(2Y)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery drive to make various ships prime + solar heater (2) (2b) internal air (28a) with compressed water heat exchanger (2Y) Heating water (52b) + vaporization explosive force in vacuum + gravitational acceleration is further accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles in the vicinity of the vacuum. Combined engine of various energy conservation cycles of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine provided with friction loss reducing means (3) aiming at increase are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)内部空気熱量の圧縮空気熱量(28b)で水(52b)を加熱+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + storage battery driven various ships primed + solar heater (2) (2b) internal air calorie compressed air calorie (28b) water (52b ) Heating + Vaporization explosive force in vacuum + Gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are kept near right angle in the part close to the vacuum, aiming to increase power generation Various energy storage cycle combined engines of a power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine equipped with friction loss reducing means (3) are provided in multiple stages. 理論最良エンジン水力空気力太陽光発電でCO2排気0発電にする+蓄電池駆動各種船舶類全盛にする+太陽光加熱器(2)(2b)圧縮空気熱量(28b)で水(52b)を加熱+燃料噴射燃焼する+真空中で気化爆発力+重力加速度を追加垂直下方に加速して、真空に近付けた部分で断熱の長レンズ(2d)と太陽光を直角近傍で維持して発電量増大を狙う摩擦損失低減手段(3)を具備した直列全動翼弾み車水タービン・直列全動翼弾み車ガスタービンを多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Theoretical best engine Hydro-aerodynamic solar power generation with CO2 exhaust 0 power generation + Storage battery drive Various ships are primed + Solar heater (2) (2b) Heated water (52b) with compressed air calorie (28b) + Fuel injection combustion + vaporization explosive force in vacuum + acceleration of gravitational acceleration is accelerated vertically downward, and heat insulation long lens (2d) and sunlight are maintained at right angles near the vacuum to increase power generation Various energy storage cycle coalescence engines of power generation method in which a series full blade impeller water turbine and a series full blade impeller gas turbine equipped with a target friction loss reduction means (3) are provided in multiple stages.
JP2008178700A 2007-09-13 2008-07-09 Various energy conservation cycle combined engine Pending JP2009209915A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2008178700A JP2009209915A (en) 2007-09-13 2008-07-09 Various energy conservation cycle combined engine

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2007237367 2007-09-13
JP2008178700A JP2009209915A (en) 2007-09-13 2008-07-09 Various energy conservation cycle combined engine

Publications (1)

Publication Number Publication Date
JP2009209915A true JP2009209915A (en) 2009-09-17

Family

ID=41073872

Family Applications (32)

Application Number Title Priority Date Filing Date
JP2007250348A Pending JP2009191611A (en) 2007-09-13 2007-09-27 Various energy conservation cycle combined engine
JP2007265115A Pending JP2009191612A (en) 2007-09-13 2007-10-11 Various energy conservation cycle combined engine
JP2008006612A Pending JP2009191613A (en) 2007-09-13 2008-01-16 Various energy conservation cycle combined engine
JP2008022246A Pending JP2009191614A (en) 2007-09-13 2008-02-01 Various energy conservation cycle combined engine
JP2008024656A Pending JP2009191615A (en) 2007-09-13 2008-02-05 Various energy conservation cycle combined engine
JP2008028582A Pending JP2009191616A (en) 2007-09-13 2008-02-08 Various energy conservation cycle combined engine
JP2008030162A Pending JP2009191626A (en) 2007-09-13 2008-02-12 Various energy conservation cycle combined engine
JP2008094452A Pending JP2009191836A (en) 2007-09-13 2008-04-01 Various energy conservation cycle combined engine
JP2008099870A Pending JP2009191837A (en) 2007-09-13 2008-04-08 Various energy conservation cycle combined engine
JP2008125665A Pending JP2009191838A (en) 2007-09-13 2008-05-13 Various energy conservation cycle combined engine
JP2008134046A Pending JP2009197778A (en) 2007-09-13 2008-05-22 Various energy conservation cycle combined engine
JP2008137629A Pending JP2009197779A (en) 2007-09-13 2008-05-27 Various energy conservation cycle combined engine
JP2008157556A Pending JP2009197781A (en) 2007-09-13 2008-06-17 Various energy conservation cycle combined engine
JP2008158830A Pending JP2009197782A (en) 2007-09-13 2008-06-18 Various energy conservation cycle combined engine
JP2008162842A Pending JP2009197783A (en) 2007-09-13 2008-06-23 Various energy conservation cycle combined engine
JP2008164111A Pending JP2009197784A (en) 2007-09-13 2008-06-24 Various energy conservation cycle combined engine
JP2008166907A Pending JP2009197785A (en) 2007-09-13 2008-06-26 Various energy conservation cycle combined engine
JP2008169979A Pending JP2009197786A (en) 2007-09-13 2008-06-30 Various energy conservation cycle combined engine
JP2008173046A Pending JP2009197787A (en) 2007-09-13 2008-07-02 Various energy conservation cycle combined engine
JP2008174231A Pending JP2009197788A (en) 2007-09-13 2008-07-03 Various energy conservation cycle combined engine
JP2008178700A Pending JP2009209915A (en) 2007-09-13 2008-07-09 Various energy conservation cycle combined engine
JP2008179872A Pending JP2009209916A (en) 2007-09-13 2008-07-10 Various energy conservation cycle combined engine
JP2008181052A Pending JP2009209917A (en) 2007-09-13 2008-07-11 Various energy conservation cycle combined engine
JP2008182325A Pending JP2009209918A (en) 2007-09-13 2008-07-14 Various energy conservation cycle combined engine
JP2008186795A Pending JP2009209919A (en) 2007-09-13 2008-07-18 Various energy conservation cycle combined engine
JP2008188165A Pending JP2009209920A (en) 2007-09-13 2008-07-22 Various energy conservation cycle combined engine
JP2008202677A Pending JP2009209921A (en) 2007-09-13 2008-08-06 Various energy conservation cycle combined engine
JP2008203842A Pending JP2009209922A (en) 2007-09-13 2008-08-07 Various energy conservation cycle combined engine
JP2008206632A Pending JP2009209923A (en) 2007-09-13 2008-08-11 Various energy conservation cycle combined engine
JP2008209497A Pending JP2009209924A (en) 2007-09-13 2008-08-18 Various energy conservation cycle combined engine
JP2008214912A Pending JP2009209925A (en) 2007-09-13 2008-08-25 Various energy conservation cycle combined engine
JP2008229434A Pending JP2009209926A (en) 2007-09-13 2008-09-08 Various energy conservation cycle combined engine

Family Applications Before (20)

Application Number Title Priority Date Filing Date
JP2007250348A Pending JP2009191611A (en) 2007-09-13 2007-09-27 Various energy conservation cycle combined engine
JP2007265115A Pending JP2009191612A (en) 2007-09-13 2007-10-11 Various energy conservation cycle combined engine
JP2008006612A Pending JP2009191613A (en) 2007-09-13 2008-01-16 Various energy conservation cycle combined engine
JP2008022246A Pending JP2009191614A (en) 2007-09-13 2008-02-01 Various energy conservation cycle combined engine
JP2008024656A Pending JP2009191615A (en) 2007-09-13 2008-02-05 Various energy conservation cycle combined engine
JP2008028582A Pending JP2009191616A (en) 2007-09-13 2008-02-08 Various energy conservation cycle combined engine
JP2008030162A Pending JP2009191626A (en) 2007-09-13 2008-02-12 Various energy conservation cycle combined engine
JP2008094452A Pending JP2009191836A (en) 2007-09-13 2008-04-01 Various energy conservation cycle combined engine
JP2008099870A Pending JP2009191837A (en) 2007-09-13 2008-04-08 Various energy conservation cycle combined engine
JP2008125665A Pending JP2009191838A (en) 2007-09-13 2008-05-13 Various energy conservation cycle combined engine
JP2008134046A Pending JP2009197778A (en) 2007-09-13 2008-05-22 Various energy conservation cycle combined engine
JP2008137629A Pending JP2009197779A (en) 2007-09-13 2008-05-27 Various energy conservation cycle combined engine
JP2008157556A Pending JP2009197781A (en) 2007-09-13 2008-06-17 Various energy conservation cycle combined engine
JP2008158830A Pending JP2009197782A (en) 2007-09-13 2008-06-18 Various energy conservation cycle combined engine
JP2008162842A Pending JP2009197783A (en) 2007-09-13 2008-06-23 Various energy conservation cycle combined engine
JP2008164111A Pending JP2009197784A (en) 2007-09-13 2008-06-24 Various energy conservation cycle combined engine
JP2008166907A Pending JP2009197785A (en) 2007-09-13 2008-06-26 Various energy conservation cycle combined engine
JP2008169979A Pending JP2009197786A (en) 2007-09-13 2008-06-30 Various energy conservation cycle combined engine
JP2008173046A Pending JP2009197787A (en) 2007-09-13 2008-07-02 Various energy conservation cycle combined engine
JP2008174231A Pending JP2009197788A (en) 2007-09-13 2008-07-03 Various energy conservation cycle combined engine

Family Applications After (11)

Application Number Title Priority Date Filing Date
JP2008179872A Pending JP2009209916A (en) 2007-09-13 2008-07-10 Various energy conservation cycle combined engine
JP2008181052A Pending JP2009209917A (en) 2007-09-13 2008-07-11 Various energy conservation cycle combined engine
JP2008182325A Pending JP2009209918A (en) 2007-09-13 2008-07-14 Various energy conservation cycle combined engine
JP2008186795A Pending JP2009209919A (en) 2007-09-13 2008-07-18 Various energy conservation cycle combined engine
JP2008188165A Pending JP2009209920A (en) 2007-09-13 2008-07-22 Various energy conservation cycle combined engine
JP2008202677A Pending JP2009209921A (en) 2007-09-13 2008-08-06 Various energy conservation cycle combined engine
JP2008203842A Pending JP2009209922A (en) 2007-09-13 2008-08-07 Various energy conservation cycle combined engine
JP2008206632A Pending JP2009209923A (en) 2007-09-13 2008-08-11 Various energy conservation cycle combined engine
JP2008209497A Pending JP2009209924A (en) 2007-09-13 2008-08-18 Various energy conservation cycle combined engine
JP2008214912A Pending JP2009209925A (en) 2007-09-13 2008-08-25 Various energy conservation cycle combined engine
JP2008229434A Pending JP2009209926A (en) 2007-09-13 2008-09-08 Various energy conservation cycle combined engine

Country Status (1)

Country Link
JP (32) JP2009191611A (en)

Families Citing this family (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US10605203B2 (en) 2014-09-25 2020-03-31 Patched Conics, LLC. Device, system, and method for pressurizing and supplying fluid
US9892979B2 (en) 2015-06-19 2018-02-13 Globalfoundries Inc. Non-destructive dielectric layer thickness and dopant measuring method
CN109801731B (en) * 2018-12-03 2020-11-17 中国辐射防护研究院 Device for simulating radionuclide wet deposition
US11465766B2 (en) * 2019-06-28 2022-10-11 The Boeing Company Systems and methods for cooling and generating power on high speed flight vehicles
EP4001599B8 (en) 2020-11-23 2023-04-12 The Boeing Company Methods and systems for generating power and thermal management having combined cycle architecture
CN112856567A (en) * 2021-01-21 2021-05-28 娓告旦 Hot water supply system

Also Published As

Publication number Publication date
JP2009209922A (en) 2009-09-17
JP2009209920A (en) 2009-09-17
JP2009209923A (en) 2009-09-17
JP2009197778A (en) 2009-09-03
JP2009191838A (en) 2009-08-27
JP2009209918A (en) 2009-09-17
JP2009197779A (en) 2009-09-03
JP2009191616A (en) 2009-08-27
JP2009191837A (en) 2009-08-27
JP2009197783A (en) 2009-09-03
JP2009197786A (en) 2009-09-03
JP2009197788A (en) 2009-09-03
JP2009209924A (en) 2009-09-17
JP2009191615A (en) 2009-08-27
JP2009191613A (en) 2009-08-27
JP2009197785A (en) 2009-09-03
JP2009197787A (en) 2009-09-03
JP2009191614A (en) 2009-08-27
JP2009197781A (en) 2009-09-03
JP2009197782A (en) 2009-09-03
JP2009209925A (en) 2009-09-17
JP2009191626A (en) 2009-08-27
JP2009197784A (en) 2009-09-03
JP2009209919A (en) 2009-09-17
JP2009209916A (en) 2009-09-17
JP2009191612A (en) 2009-08-27
JP2009191611A (en) 2009-08-27
JP2009191836A (en) 2009-08-27
JP2009209917A (en) 2009-09-17
JP2009209926A (en) 2009-09-17
JP2009209921A (en) 2009-09-17

Similar Documents

Publication Publication Date Title
JP2009209915A (en) Various energy conservation cycle combined engine
JP2011043065A (en) Combination engine with various energy conservation cycle
JP2010174629A (en) Cycle combined engine for reserving various kinds of energy
JP2010216242A (en) Engine integrating various energy conservation cycle
JP2011122454A (en) Various energy conservation cycle combined engine
JP2010216244A (en) Engine integrating various energy conservation cycle
JP2011069206A (en) Various energy conservation cycle combined engine
JP2011043063A (en) Combination engine with various energy conservation cycle
JP2011069205A (en) Various energy conservation cycle combined engine
JP2010174677A (en) Various energy conservation cycle combined engine
JP2010174636A (en) Various energy conservation cycle combined engine
JP2011069208A (en) Various energy conservation cycle combined engine
JP2010216248A (en) Engine integrating various energy conservation cycle
JP2011069196A (en) Various energy conservation cycle combined engine
JP2011069207A (en) Various energy conservation cycle combined engine
JP2011069198A (en) Various energy conservation cycle combined engine
JP2011069197A (en) Various energy conservation cycle combined engine
JP2011069200A (en) Various energy conservation cycle combined engine
JP2011069201A (en) Various energy conservation cycle combined engine
JP2011069210A (en) Various energy conservation cycle combined engine
JP2011069218A (en) Various energy conservation cycle combined engine
JP2011043062A (en) Combination engine with various energy conservation cycle
JP2011144643A (en) Various energy conservation cycle combined engine
JP2011069204A (en) Various energy conservation cycle combined engine
JP2011069199A (en) Various energy conservation cycle combined engine