JP2015021445A - Various energy preservation cycle combined engines - Google Patents

Various energy preservation cycle combined engines Download PDF

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JP2015021445A
JP2015021445A JP2013151214A JP2013151214A JP2015021445A JP 2015021445 A JP2015021445 A JP 2015021445A JP 2013151214 A JP2013151214 A JP 2013151214A JP 2013151214 A JP2013151214 A JP 2013151214A JP 2015021445 A JP2015021445 A JP 2015021445A
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blade
power generation
counter
supercritical pressure
engine
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谷川 浩保
Hiroyasu Tanigawa
浩保 谷川
和永 谷川
Kazunaga Tanigawa
和永 谷川
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Abstract

PROBLEM TO BE SOLVED: To eliminate defects found in the existing steam turbine power generation that alternative arrangement of stator blades and rotor blades in the turbine causes a power generation amount to become approximately 0, electricity charge to become high and rate of corporate earnings, salaries and employment to become approximately 0.SOLUTION: Supercritical pressure steam 5H is manufactured by a double inversion engine 12G by 130 times of the existing boiler, a gravity power generation building 12 for producing a head drop is built up as a power generation plant by a vertical full rotor blade type steam gravity turbine 11Z, a column pipe 12B is also used as a large specific gravity substance lifting device 2F, reverse osmosis water 52D is injected at the upper-most part by a lifting preservation large specific gravity substance accelerator 6W, the reverse osmosis water 52D is sucked, injected and accelerated by the supercritical pressure steam 5H, accelerated at gravitational acceleration in vacuum to perform a head drop producing power generation with Mach 30 and the like of 30 times of that of the existing steam turbine, an amount of power generation with the same amount of fuel in 1/10 volume is set to show 30 times speed×170 times mass=5100 times power generation so as to expand an improved invention, remarkable No.1 global application profit rate, No.1 global salary, No.1 global employment and make an eternal No.1 global application profit rate under full application of manufacture.

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現状から明白なように先進国経済成長戦略には大発明以外の道は無く、略同一発明同一実施では途上国と同一給料が明白なため、具体的な優位性の説明倍率最大を狙う、本発明の竪型全動翼蒸気水重力タービン11Z発電は、既存最先端科学技術も簡単に金儲け可能な発明に限定同一燃料量の発電量が最低のため、超大型工作機械が必要など実験皆無で製造困難な全動翼二重反転機関を実用化し、既存揚水発電の揚水ポンプ入力が回転速度の3乗に比例で実用化のため、発電量が水速度の2乗に比例するか実験が必要で、発電量が水速度の2乗に比例と計算して速度の無限増大に挑戦する発電量にして、断熱圧縮の空気温度20℃が圧縮比8で13倍の260℃になるを極限まで利用する、二重反転機関12G+竪型全動翼蒸気水重力タービン11Z発電にし、太陽光加熱器21で加熱した空気28aを超高速全動翼二重反転機関12G圧縮して、燃料噴射燃焼熱交換する圧縮空気熱交換器2Yにし、圧縮比80〜100狙い超臨界圧力水蒸気5H製造量を同一燃料量既存ボイラーの130倍狙いにして、竪型全動翼蒸気水重力タービン11Z発電落差無限製造駆動を、逆浸透水52Dに研磨剤混入防止のため逆浸透水52Dマッハ3速度狙いの出発とし、逆浸透水52D噴射速度+超臨界圧力水蒸気5H噴射速度加速+真空中の重力加速度加速で発電して、同一燃料量既存蒸気タービン大気圧から真空部分発電の3倍速度9倍発電量にし、マッハ3速度でも逆浸透水52D質量が1700倍を大きく超えるため、9倍発電量×1700倍質量×130倍水蒸気5H製造量=真空部分発電量の1989000倍発電量となり、逆浸透水52D速度に合わせたタービン翼8a角度や回転速度追加した、全く新しい複数の重要実験を必要として、重力発電建物12+比重大物質上昇装置2Fの高さや強度を最重要とし、柱管12Bを逆浸透水52Dなど比重大物質上昇装置2Fとして使用して、管径を増大することで鉄骨骨組12Aの柱を強大とし、用途に合わせた高さの強大な高層建築物として、竪型全動翼蒸気水重力タービン11Z発電とし、製造過程で最も重要な工程を超高速回転時の回転バランス調整加工として、内側軸装置60A+外側軸装置60B夫々の両端に各種軸受12Cを具備し、内側軸装置60Aと外側軸装置60B夫々を別々に仮組立てして、夫々の両端を工作機械で保持超高速回転バランス調整加工後に分解して本組立にし、前例の無い内側軸装置60A兼円筒内側動翼群60Cと、外側軸装置60B兼円筒外側動翼群60Dの二重反転にする、竪型全動翼蒸気水重力タービン11Z発電の、各種エネルギ保存サイクル合体機関や各種エネルギ保存合体方法の技術に関する。 As is clear from the current situation, there is no way other than major inventions in the economic growth strategy of developed countries, and with the same implementation of the same invention, the same salary as in developing countries is obvious. The vertical all-steam steam water gravity turbine 11Z power generation of the invention is limited to the invention in which the existing state-of-the-art science and technology can be easily made with money. It is necessary to test whether the amount of power generation is proportional to the square of the water speed in order to put into practical use a difficult-to-manufacture all-blade counter-rotating engine and to make the pump input of the existing pumped storage power generation proportional to the cube of the rotational speed. Then, the power generation amount is calculated to be proportional to the square of the water speed, and the power generation amount is set to challenge the infinite increase in the speed, and the adiabatic compression air temperature of 20 ° C is 13 times 260 ° C, with a compression ratio of 8. Use counter-rotating engine 12G + vertical all-blade steam water gravity turbine 11Z power generation, the air 28a heated by the solar heater 21 is compressed by an ultra-high speed full blade counter-rotating engine 12G to be a compressed air heat exchanger 2Y for fuel injection combustion heat exchange, and a compression ratio of 80 to 100 is exceeded Aiming for the production volume of critical pressure water vapor 5H to be 130 times the same fuel amount as existing boilers, vertical osmotic blade steam water gravity turbine 11Z power generation drop infinite production drive, reverse osmosis water 52D to prevent mixing of abrasive into reverse osmosis water 52D 52D Mach 3 speed target departure, reverse osmosis water 52D injection speed + supercritical pressure water vapor 5H injection speed acceleration + gravitational acceleration acceleration in vacuum, the same fuel amount from the existing steam turbine atmospheric pressure 3 of vacuum partial power generation Because the mass of reverse osmosis water 52D greatly exceeds 1700 times even at Mach 3 speed with 9 times the electricity generation rate, 9 times electricity generation × 1700 times mass × 130 times steam 5H production amount = vacuum part Gravity power generation building 12+ specific material riser 2F height and strength, which requires a number of new and important experiments with the amount of electricity generated by 1989,000 times the amount of electricity, and the turbine blade 8a angle and rotation speed adjusted to the reverse osmosis water 52D speed The column tube 12B is used as the specific material raising device 2F such as the reverse osmosis water 52D, and the diameter of the steel frame 12A is increased by increasing the tube diameter, and the height of the column is increased according to the application. As a high-rise building, a vertical all-blade steam-water gravity turbine 11Z power generation is used, and the most important process in the manufacturing process is a rotational balance adjustment process at the time of ultra-high-speed rotation. The bearing 12C is provided, the inner shaft device 60A and the outer shaft device 60B are each temporarily assembled separately, and both ends are held by a machine tool. Disassembled into the main assembly, and a vertical all-blade steam water gravity turbine in which the unprecedented inner shaft device 60A / cylindrical inner blade group 60C and outer shaft device 60B / cylindrical outer blade group 60D are double-reversed. The present invention relates to various energy conservation cycle coalescence engines and various energy conservation coalescence methods of 11Z power generation.

昭和17年航空機製作所水島工場に就職エンジン発明で人類史上最大の貢献を決意し、最も困った部分が利益率抜群世界一が可能な発明の定義で国内企業などにご協力のお願いを始め、クリントン大統領3年3回のご協力により具体的な優位性の説明倍率最重要が判明して、既存揚水発電の揚水入力が回転速度の3乗に比例する入力になるの実用化から、可変速モーターを採用のため出力が回転速度の3乗に比例するか実験が必要ですが痕跡皆無のため、発電量が水速度の2乗に比例するか発電機回転速度の2乗に比例するか実験が必要で、怠慢過ぎる既存最先端科学技術の既存揚水発電の水速度がマッハ1/7やマッハ1/5等のため、スペースシャトルの燃焼室圧力22〜25MPaと同圧力以上超臨界圧力水蒸気5Hを噴射して、燃焼ガス速度を超える蒸気速度で逆浸透水52Dを加速マッハ32の地球脱出速度等とし、真空中の重力加速度加速で発電する実験にすると、同一質量の発電量がマッハ32÷マッハ1/5=160倍速度の25600倍発電量の実験を必要として、落差製造量が無限増大する背景技術があり、二重反転機関12G+竪型全動翼蒸気水重力タービン11Z発電にし、利益率抜群世界一が可能な発明狙いにして、実験結果が同一質量既存の2倍発電量以上で地球温暖化防止革命や、経済成長戦略革命や、世界全部で運用する運用利益率抜群世界一永遠狙い等により、日本の財政赤字1000兆円を比較的短期間に0にする等が狙える背景技術がある。   In 1957, he decided to make the largest contribution to human history in the invention of a job at the Mizushima Plant of the Aircraft Works, and began to ask Japanese companies to cooperate with the definition of the invention where the most troublesome part is the world's best profit rate. With the cooperation of the president three times a year, the explanation of the specific advantage is most important, and the pumping input of the existing pumped-storage power generation becomes an input proportional to the cube of the rotational speed. It is necessary to experiment whether the output is proportional to the third power of the rotation speed because of the adoption of this, but since there is no trace, the experiment is conducted to determine whether the amount of power generation is proportional to the square of the water speed or the square of the generator rotation speed. Because the water speed of the existing pumped-storage power generation of the existing state-of-the-art science and technology that is necessary and too lazy is Mach 1/7, Mach 1/5, etc., the supercritical pressure steam 5H is equal to or higher than the space shuttle combustion chamber pressure of 22-25 MPa. Inject and burn In an experiment in which the reverse osmosis water 52D is set to the earth escape speed of the acceleration Mach 32 at a vapor speed exceeding the gas speed and the power generation is performed by acceleration of gravitational acceleration in vacuum, the power generation amount of the same mass is Mach 32 ÷ Mach 1/5 = 160. There is a background technology that requires an experiment of the power generation amount of 25600 times the double speed, and the head production volume increases infinitely, and it is possible to achieve the world's best profit rate by making the counter-rotating engine 12G + vertical moving blade steam water gravity turbine 11Z power generation With the aim of a new invention, the result of the experiment is more than twice the amount of existing power generation, the global warming prevention revolution, the economic growth strategy revolution, and the world's most eternal aim of operating profit rate that operates all over the world. There is a background technology that can aim to reduce the deficit of 1,000 trillion yen to 0 in a relatively short period of time.

製造困難な全動翼二重反転機関は宝の山で実験が必要、重要実験皆無で怠慢過ぎる既存最先端科学技術の火力発電ボイラーは、大気圧での燃料噴射燃焼で過熱蒸気を製造して蒸気タービンでの発電ですが、断熱圧縮の温度上昇は空気温度20℃が圧縮比8で13倍の260℃になるため、二重反転機関12G圧縮空気熱交換器2Y超臨界圧力水蒸気5H製造として、圧縮比8の10倍狙いの圧縮比80〜100狙いの圧縮空気熱交換器2Yとし、燃料噴射燃焼熱交換超臨界圧力水蒸気5H製造にすると、燃焼温度が130倍前後となり、実験が必要な同一燃料量既存ボイラーの130倍前後の超臨界圧力水蒸気5H製造量になる背景があり、2倍で大革命を大きく超えるのに加えて、既存火力発電の蒸気タービン発電は、静翼と動翼を交互に夫々20前後具備して、蒸気速度を回転出力0の静翼で20回前後堰き止め90度方向転換噴射を繰り返す無茶膨張にし、蒸気速度を略1/30にしているため、静翼を全廃した二重反転機関12G+竪型全動翼蒸気水重力タービン11Zとして、逆浸透水52D噴射速度+超臨界圧力水蒸気5H加速+真空中の重力加速度発電とし、既存蒸気タービン発電の30倍速度900倍静翼全廃発電量にして、超臨界圧力水蒸気5H製造量ボイラーの130倍を追加し、同一燃料量130倍×900倍発電量=117000倍発電量にして、実験結果が同一燃料量既存の2倍発電量以上で地球温暖化防止革命や、経済成長戦略革命や、世界全部で運用する運用利益率抜群世界一永遠狙い等により、日本の財政赤字1000兆円を比較的短期間に0にする等が狙える背景技術がある。   A difficult-to-manufacture all-blade counter-rotating engine requires experiments at the treasure mountain, and there is no significant experiment, and the existing state-of-the-art thermal power boilers that are too lazy are producing superheated steam by fuel injection combustion at atmospheric pressure Power generation in a steam turbine, but the temperature rise of adiabatic compression is 260 ° C, which is 13 times the air temperature 20 ° C, so the counter-rotating engine 12G compressed air heat exchanger 2Y supercritical pressure steam 5H production When the compressed air heat exchanger 2Y with a compression ratio of 80 to 100 with a compression ratio of 8 is set to 8 and the fuel injection combustion heat exchange supercritical pressure steam 5H is manufactured, the combustion temperature becomes about 130 times, and an experiment is necessary. There is a background that the amount of supercritical pressure steam 5H is about 130 times that of the existing boiler, and the steam turbine power generation of the existing thermal power generation uses both stationary blades and moving blades. Alternately Since there are about 20 and the steam speed is set to brown without repeated damming around 90 times with a stationary blade with a rotational output of 0, and the steam speed is reduced to about 1/30, the stationary blade is completely abolished. Counter-rotating engine 12G + vertical all blade steam water gravity turbine 11Z, reverse osmosis water 52D injection speed + supercritical pressure steam 5H acceleration + gravity acceleration power generation in vacuum, 30 times the speed of existing steam turbine power generation 900 times static The total power generation of the blades is increased by 130 times the supercritical pressure steam 5H production amount boiler, the same fuel amount is 130 times x 900 times, the power generation amount is 117,000 times, and the experimental result is twice the existing fuel amount. Japan's budget deficit of 1,000 trillion yen will be reduced to 0 in a relatively short period of time by the global warming prevention revolution, the economic growth strategy revolution, and the world's most eternal aim of operating profit rate. There is background technology that can be aimed at.

日本国特許1607151号、特許1609617号、特許1645350号、特許1924889号、特許1912522号、特許1959305号、特許1986119号、特許2604636号、1992年米国特許5133305号、1993年米国特許5230307号、1995年米国特許5429078号、1997年米国特許5701864号、PCT国際出願番号PCT/JP97/01814号・米国特許第6119650号、中国特許第8818号、EU英国特許902175号、PCT国際出願番号PCT/JP97/02250号・米国特許第6263664号がある。Japanese Patent No. 1607151, Patent No. 1609617, Patent No. 1645350, Patent No. 1924889, Patent No. 1912522, Patent No. 1959305, Patent No. 11986119, Patent No. 2646636, 1992 U.S. Pat. No. 5,133,305, 1993 U.S. Pat. US Pat. No. 5,429,078, 1997 US Pat. No. 5,701,864, PCT International Application No. PCT / JP97 / 01814, US Pat. No. 6,119,650, Chinese Patent No. 8818, EU British Patent No. 902175, PCT International Application No. PCT / JP97 / 02250 No. 6,263,664.

PCT国際出願公開NO.WO 2010/101017 PCT/JP2010/052171の出願があり、特願2007−179204提出日:平成19年7月9日より特願2007−265115提出日:平成19年10月11日まで5個の出願があり、特願2008−006612提出日:平成20年1月16日より特願2008−327045提出日:平成20年12月24日まで45個の出願があり、特願2009−011656提出日:平成21年1月22日より特願2009−298004提出日:平成21年12月28日まで322個の出願があり、特願2010−000841提出日:平成22年1月6日より特願2010−033224提出日:平成22年2月18日まで32個の出願があり、特願2011−055078提出日:平成23年3月14日より特願2011−267508提出日平成23年12月7日まで22個の出願があり、特願2012−032245提出日:平成24年2月17日より特願2012−271035提出日:平成24年12月12日まで29個の出願があり、特願2013−7975提出日:平成25年1月21日より特願2013−131284提出日:平成25年6月24日まで16個の出願があります。PCT International Application Publication No. There are applications of WO 2010/101017 PCT / JP2010 / 052171, and the filing date of Japanese Patent Application 2007-179204: July 9, 2007 to the filing date of Japanese Patent Application 2007-265115: October 11, 2007 No. 2008-006612 filing date: January 16, 2008 to No. 2008-327045 filing date: There are 45 applications from December 24, 2008, filing date of Japanese Patent Application No. 2009-011656: From January 22, 2009, the filing date of the Japanese Patent Application 2009-298004: There were 322 applications until December 28, 2009, and the filing date of the Japanese Patent Application 2010-000841: the Japanese Patent Application 2010 from January 6, 2010 -0332424 Submission date: There were 32 applications until February 18, 2010, and Japanese Patent Application No. 2011-055078 submission date: 2011 There are 22 applications from March 14 to the date of submission of the Japanese Patent Application 2011-267508 to December 7, 2011, the date of submission of the Japanese Patent Application 2012-032245: the date of submission of the Japanese Patent Application 2012-271355 from February 17, 2012 : There are 29 applications until December 12, 2012, and Japanese patent application 2013-7975 submission date: From January 21, 2013, Japanese patent application 2013-131284 submission date: 16 until June 24, 2013 There is an application.

既存最先端科学技術が簡単に金儲け出来る物真似改良全部で速度に挑戦皆無のため、速度が利用可能な全動翼の二重反転機関12Gや、竪型全動翼蒸気水重力タービン11Zを製造では工作機械が皆無のため工作機械の製造が必要ですが、二重反転機関12G+竪型全動翼蒸気水重力タービン11Z発電では、発電量が速度に比例×質量に比例でも既存火力発電蒸気タービンの音速等最大出力部分との比較質量が、1700〜10000倍質量のため同一燃料量の発電量を既存火力発電の1700倍発電量等として、実験結果を10倍以上の発電量から出発とし、性能の悪い発電原価か高価な既存火力発電や原子力発電や太陽光発電や風力発電等を全廃して、運用利益率抜群世界一を永遠や給料世界一や新規雇用世界一にし、地球温暖化防止する課題がある。   Since there is no challenge to speed with all the imitation improvements that can easily make money with the existing state-of-the-art science and technology, in manufacturing the counter rotating engine 12G of all rotor blades that can use speed and the vertical rotor blade steam water gravity turbine 11Z Since there are no machine tools, it is necessary to manufacture machine tools. However, in the counter-rotating engine 12G + vertical type full-blade steam water gravity turbine 11Z power generation, even if the amount of power generation is proportional to the speed × proportional to the mass, Since the comparison mass with the maximum output part such as sonic speed is 1700-10000 times mass, the power generation amount of the same fuel amount is set to 1700 times the power generation amount of the existing thermal power generation, etc. The cost of power generation is poor or the existing thermal power generation, nuclear power generation, solar power generation, wind power generation, etc. are completely abolished. There is a problem in that.

二重反転機関12G+竪型全動翼蒸気水重力タービン11Z発電として、二重反転機関12Gにより太陽光加熱器21で加熱した空気28aを超高速全動翼二重反転圧縮し、圧縮比80〜100として圧縮空気熱交換器2Yで最先端科学技術で実験皆無の熱交換にして、同一燃料量既存ボイラーの130倍以上を狙う超臨界圧力水蒸気5H製造量にし、重力発電建物12の最上部に逆浸透水52Dと共に上昇保存して、逆浸透水52D噴射速度マッハ3+超臨界圧力水蒸気5H噴射速度マッハ34+真空中の重力加速度加速し、同一燃料量既存火力発電蒸気タービン最大速度出力部の大気圧〜真空部と比較では、マッハ34÷マッハ1=34倍速度の1156倍速度発電量として、その時点での逆浸透水52D容積が蒸気タービン蒸気の1/1700〜1/10000容積のため、水52D容積を100倍以上にして更に100倍質量発電量にし、更に超臨界圧力水蒸気5H製造量を既存ボイラーの130倍として130倍熱量発電量として、総合計算発電量を1156倍×100倍×130倍=15028000倍発電量にし、実験結果を同一燃料量既存火力発電蒸気タービン高速部の100倍発電量で大革命と判定して、世界規模100%独占を永遠継続狙いにし、発明品全部の極秘製造極秘での全世界運用発電として、運用利益率抜群の世界一永遠や給料世界一や新規雇用世界一にし、性能の悪い発電原価か高価な既存火力発電や原子力発電や太陽光発電や風力発電等自然淘汰して、最も効率良く地球温暖化防止する。 As the contra-rotating engine 12G + saddle-type all-blade steam water gravity turbine 11Z power generation, the air 28a heated by the solar heater 21 by the contra-rotating engine 12G is subjected to ultra-high speed all-rotor counter-rotating compression, compression ratio 80 ~ 100 as a heat exchanger of the compressed air heat exchanger 2Y with the state-of-the-art science and technology, heat exchange without any experiments, supercritical pressure steam 5H production amount aiming at 130 times or more of the same boiler, and at the top of the gravity power building 12 Ascending and storing with reverse osmosis water 52D, reverse osmosis water 52D injection speed Mach 3 + supercritical pressure water vapor 5H injection speed Mach 34 + acceleration of gravity acceleration in vacuum, atmospheric pressure of the same fuel amount existing thermal power generation steam turbine maximum speed output part In comparison with the vacuum part, Mach 34 ÷ Mach 1 = 1156 times the power generation amount of 34 times speed, and the volume of reverse osmosis water 52D at that time is 1/5 of the steam turbine steam. Since the volume is 700 to 1/10000, the water 52D volume is increased 100 times or more to further increase the power generation amount by 100 times, and the supercritical pressure steam 5H production amount is increased to 130 times that of the existing boiler, and the total power generation is calculated as 130 times the calorific value. The amount of power generation is 1156 times x 100 times x 130 times = 15028000 times, and the experimental result is determined to be a major revolution with the same fuel amount 100 times the power generation of the existing thermal power generation steam turbine high-speed part, and 100% monopoly on the world scale is eternal Aiming for continuity, the world-wide operational power generation with the top secret manufacturing secret of all inventions, the world's most eternal operating profit rate, the world's salary, and the world's newest employment. Natural warming such as nuclear power generation, solar power generation and wind power generation is the most effective way to prevent global warming.

既存最先端科学技術の蒸気タービン発電が静翼を具備して速度を利用しない等、致命的な欠点多数のため、二重反転機関12G+竪型全動翼蒸気水重力タービン11Z発電にすると、同一燃料量既存蒸気タービン発電の100倍発電量を超えるため実用化すると、運用利益率抜群の世界一永遠や給料世界一や新規雇用世界一にする効果があり、性能の悪い発電原価か高価な既存火力発電や原子力発電や太陽光発電や風力発電等が自然淘汰する効果も大きく、最も効率良く地球温暖化防止する効果がある。 Due to a number of fatal drawbacks such as the existing state-of-the-art steam turbine power generation equipped with stationary blades and not using speed, the counter-rotating engine 12G + vertical moving blade steam water gravity turbine 11Z power generation is the same When it is put into practical use because the amount of fuel exceeds 100 times the amount of existing steam turbine power generation, it has the effect of making the world's most eternal operating profit rate, the world's best salary, and the world's newest employment. Thermal power generation, nuclear power generation, solar power generation, wind power generation, etc. have a great effect of natural selection, and are the most effective in preventing global warming.

重力発電建物12の説明図(実施例1)Illustration of gravity power building 12 (Example 1) 竪型全動翼蒸気水重力タービン11Zの軸受12Cの説明図(実施例2)Explanatory drawing (Example 2) of the bearing 12C of a vertical all blade steam water gravity turbine 11Z 内側軸装置60A外側軸装置60Bの円筒動翼群の説明図(実施例3)Explanatory drawing of the cylindrical blade group of the inner shaft device 60A and the outer shaft device 60B (Example 3) 二重反転機関12Gの説明図(実施例4)Explanatory drawing of counter-rotating engine 12G (Example 4) 太陽光加熱器21の説明図(実施例5)Explanatory drawing of the solar heater 21 (Example 5) 2段圧縮機12Nの説明図(実施例6)Explanatory drawing of the two-stage compressor 12N (Example 6)

既存発電技術に全動翼二重反転機関の前例皆無で本発明全部が全動翼二重反転機関関連のため、製造の過程で円筒内側動翼群60Cと円筒外側動翼群60Dを夫々別々に仮組立とし、夫々の両端には各種軸受12Cを具備で運転時と同様に工作機械で回転や加工可能として、夫々を超高速回転でもバランス運転良好に加工後に分解本組立にする、全く新しい加工技術を中核とした実験結果を最重要とし、断熱圧縮の空気温度20℃が圧縮比8で13倍の260℃になる、を過熱蒸気製造に利用した痕跡が皆無のため超臨界圧力水蒸気5H製造量増大を最重要として、超高速全動翼二重反転圧縮により圧縮比80〜100狙い圧縮空気温度130倍上昇狙いにし、実験結果が重要な二重反転機関12G圧縮機は、逆浸透水52D冷却の圧縮翼使用や太陽光加熱器21加熱の空気を圧縮して超臨界圧力水蒸気5H製造量の増大にして、圧縮比80〜100以上狙いの圧縮空気熱交換器2Yで燃料噴射燃焼する実験が必要な熱交換にし、同一燃料量既存ボイラーの130倍超臨界圧力水蒸気5H製造量狙いにして、竪型全動翼蒸気水重力タービン11Z駆動用の逆浸透水52D初速度製造とし、真空中の重力加速度で発電することで燃料費僅少+統一タービン翼8a+落差大幅増大にして、既存発電技術に真空中の重力加速度加速する前例が皆無で本発明か真空中の重力加速度加速のため、重力発電建物12の柱管12B等を水管5Z+比重大物質上昇装置2Fとして、逆浸透水52Dを最上部に上昇保存+落差製造にし、逆浸透水52D噴射速度マッハ3等を製造+超臨界圧力水蒸気5H加速+真空中重力加速度加速して、同一燃料量既存火力発電の1000倍発電量狙いにし、実験結果を同一燃料量既存火力発電の100倍以上の大革命にして、全自動大量極秘製造極秘運用とし、運用利益率抜群の世界一や給料世界一や雇用無限増大にする。 The existing power generation technology has no precedent for all rotor blade counter-rotating engines, and the present invention is entirely related to the entire rotor blade counter-rotating engine. Therefore, the inner rotor blade group 60C and the outer cylinder rotor blade group 60D are separated separately in the manufacturing process. It is a temporary assembly, and various bearings 12C are provided at both ends so that it can be rotated and machined by machine tools in the same way as during operation. Supercritical pressure steam 5H because the experimental results centered on processing technology are the most important, and there is no trace of using adiabatic compression air temperature 20 ° C, which is 13 times 260 ° C, which is 13 times compression ratio, for superheated steam production The increase in production volume is the most important, and the counter-rotating engine 12G compressor, whose compression ratio is 80 to 100 by ultra-high-speed all-blade counter-rotating compression and aiming to increase the compressed air temperature by 130 times, 52D cooling compressor blade Or solar heating device 21 heat compression that increases the production volume of supercritical water vapor 5H and heat exchange that requires fuel injection combustion in the compressed air heat exchanger 2Y with a compression ratio of 80 to 100 or more With the same fuel quantity, the production of the reverse osmosis water 52D for driving the vertical type moving blade steam water gravity turbine 11Z at the initial speed production is aimed at 130 times supercritical pressure steam 5H production amount of the existing boiler, and power generation is performed by gravity acceleration in vacuum As a result, there is no precedent for acceleration of gravitational acceleration in vacuum in the existing power generation technology with little increase in fuel cost + unified turbine blade 8a + drastic drop, and the present invention or the column of gravity power generation building 12 for acceleration of gravitational acceleration in vacuum. The pipe 12B and the like are the water pipe 5Z + specific critical substance raising device 2F, the reverse osmosis water 52D is stored at the top, and the head is made to make a drop, and the reverse osmosis water 52D injection speed Mach 3 is produced + supercritical pressure water vapor 5 Acceleration + Acceleration of gravity acceleration in vacuum, aiming to generate power 1000 times that of existing thermal power generation with the same fuel amount, making the experimental result a revolution that is more than 100 times that of existing thermal power generation with the same fuel amount, and fully automatic mass production of top secret production , Make it the best in the world for profitability, the world's salary, and unlimited employment.

図1の重力発電建物12による、二重反転機関12G+竪型全動翼蒸気水重力タービン11Z発電は、揚水発電水速度が音速の1/7〜1/5を、逆浸透水52Dマッハ3噴射+超臨界圧力水蒸気5Hでマッハ30に加速+真空中の重力加速度で発電とし、実験結果によりマッハ10〜マッハ50を選択可能な重力発電建物12として、実験結果で最適落差の決定や製造の過程では超臨界圧力水蒸気5H噴射圧力20〜50MPaから選択とし、超臨界圧力水蒸気5H膨張速度で逆浸透水52Dを加速製造速度とし真空中重力加速度で発電して、重力発電建物12の高さを無限増大可能な竪型全動翼蒸気水重力タービン11Zとし、落差を地震等に対応した重力発電建物12の無限製造で発電量無限増大狙いにして、重力発電建物12の最上部より比重大物質の逆浸透水52Dを高速噴射超臨界圧力水蒸気5H加速して、真空度上昇中の重力加速度加速する過程で、円筒外側動翼群60D+円筒内側動翼群60Cに噴射し、夫々を二重反転駆動して、竪型全動翼蒸気水重力タービン11Z横軸1h発電機1多数を駆動し、比重大物質上昇装置2Fによる逆浸透水52Dの上昇は、揚水ポンプ入力が回転速度の3条に比例するため可変速ポンプ多数を使用上昇して、重力発電建物12の柱を柱管12B兼比重大物質上昇装置2F兼水管5Gとして、柱管12Bの管径を拡大して頑丈な柱にすると共に低速上昇速度で揚水電力僅少にし、継手に角フランジ12Dを鉄骨骨組12Aに合せて具備して、鉄骨骨組12Aの上下を角フランジ12Dにボルト締め組立てにし、重力発電建物12を構成柱管12Bの内部を比重大物質上昇装置2Fとして使用して、水3Eの逆浸透水52Dを最上部に上昇保存し、比重大物質加速器6Wでマッハ1〜3で噴射超臨界圧力水蒸気5H加速して、真空度上昇中の重力加速度加速発電する、竪型全動翼蒸気水重力タービン11Z発電にし、各種エネルギ保存サイクル合体機関発電及び合体方法発電にする。 The counter-rotating engine 12G + saddle-type full blade steam water gravity turbine 11Z power generation by the gravity power generation building 12 of FIG. 1 uses 1/7 to 1/5 of the pumped water power generation speed of sonic speed, reverse osmosis water 52D Mach 3 injection + Accelerates to Mach 30 with supercritical pressure water vapor 5H + Generates power with gravity acceleration in vacuum, and determines the optimum head based on the experimental results and the process of manufacturing as a gravity power generation building 12 that can select Mach 10 to Mach 50 according to the experimental results Then, the supercritical pressure water vapor 5H injection pressure is selected from 20 to 50 MPa, the reverse osmosis water 52D is accelerated at the supercritical pressure water vapor 5H expansion rate, and the power is generated at the gravitational acceleration in vacuum, and the height of the gravity power generation building 12 is infinite The top of the gravitational power generation building 12 is aimed at an infinite production of the gravitational power generation building 12 corresponding to an earthquake etc. The reverse osmosis water 52D, which is a more serious material, is accelerated to high-speed injection supercritical pressure water vapor 5H, and is injected into the cylindrical outer blade group 60D + cylindrical inner blade group 60C in the process of accelerating the gravitational acceleration while the degree of vacuum is increasing. Is driven reversely to drive a large number of vertical bladed steam water gravity turbines 11Z horizontal shaft 1h generator 1 and the reverse osmosis water 52D rises by the specific material raising device 2F. As the number of variable speed pumps is increased, the column of the gravitational power generation building 12 is used as the column tube 12B and specific substance rising device 2F and water tube 5G. In addition, the pumping power is reduced at a low rising speed, and the joint is provided with a square flange 12D in accordance with the steel frame 12A, and the steel frame 12A is bolted to the square flange 12D so that the gravity power building 12 is assembled. The inside of the column 12B is used as the specific critical substance raising device 2F, and the reverse osmosis water 52D of the water 3E is raised and stored at the top, and the supercritical pressure water vapor 5H is injected at Mach 1 to 3 with the specific critical substance accelerator 6W. Accelerates and accelerates gravitational acceleration while raising the degree of vacuum to a vertical all-blade steam water gravity turbine 11Z power generation, and various energy storage cycle combined engine power generation and combined method power generation.

図2の竪型全動翼蒸気水重力タービン11Z発電は、発電量が速度の2乗に比例すると考えて大重量直線超高速噴射対応の全動翼二重反転とし、夫々が高速二重反転する円筒内側動翼群60C兼内側軸装置60Aと、円筒外側動翼群60D兼外側軸装置60Bにして、夫々の両端には夫々最適軸受12Cを具備して夫々別々に組立後工作機械で加工可能にし、超高速バランス調整加工運転良好に加工後の夫々を分解精密本組立てとして、全く新しい加工組立技術により1組の竪型全動翼蒸気水重力タービン11Zを製造し、重力発電建物12の柱管12Bの高さに合わせて5〜20組等の組立として、柱管12B兼比重大物質上昇装置2Fにより水3Eの逆浸透水52Dを最上部に可変速ポンプ多数で上昇保存し、揚水入力が回転速度の3乗に比例に対応し、比重大物質加速器6W水ポンプ5Zで逆浸透水52Dをマッハ3等で噴射超臨界圧力水蒸気5H噴射で加速して、マッハ30等として真空中重力加速度加速で発電し、同一燃料量既存蒸気タービン発電大気圧から真空部発電量の、30倍速度×130倍質量=3900倍発電量、又は30×30×130=117000倍発電量にして、逆浸透水52Dによりタービン翼8aの摩耗量を僅少にする発電量の大幅増大にし、超臨界圧力水蒸気5Hで初速製造容積増大僅少でタービン翼8aを同一にして、マッハ3噴射の入力等を差引後の同一燃料量発電量を既存蒸気タービン発電量の1000倍狙いにし、円筒内側動翼群60Cと円筒外側動翼群60Dを、二重反転磁気装置85又は二重反転歯車装置85Yにより、二重反転駆動や横軸1h発電機1駆動の重力発電建物12の床面や階数10〜30階等として、最適高さの重力発電建物12の無限製造にして既存最先端科学技術を大改良し、実験が必要な竪型全動翼蒸気水重力タービン11Z発電方法にして、製造物全部を運用する運用利益率抜群世界一の地球温暖化防止にする、各種エネルギ保存サイクル合体機関発電及び合体方法発電にする。 The vertical all-blade steam water gravity turbine 11Z power generation shown in FIG. 2 assumes that the amount of power generation is proportional to the square of the speed, so that it is a full-rotation double reversal for heavy-weight linear ultra-high-speed injection, The inner cylindrical blade group 60C and inner shaft device 60A and the outer cylindrical blade group 60D and outer shaft device 60B are respectively provided with optimum bearings 12C at both ends, and each is assembled and machined separately by a machine tool. Each of the high-speed balance adjustment processing operation is made possible by disassembling and precision assembling each other, and a set of vertical all-blade steam water gravity turbine 11Z is manufactured by completely new processing and assembly technology. As an assembly of 5 to 20 groups according to the height of the column tube 12B, the reverse osmosis water 52D of the water 3E is raised and stored by a large number of variable speed pumps at the top by the column material 12B and specific material rising device 2F. Input is the cube of rotational speed Correspondingly proportionally, reverse critical osmosis water 52D is accelerated by supercritical pressure water vapor 5H injection by Mach 3 etc. with specific material accelerator 6W water pump 5Z, and Mach 30 etc. is generated by acceleration of gravity acceleration in vacuum, and the same fuel From the existing steam turbine power generation atmospheric pressure to the vacuum section power generation amount 30 times speed x 130 times mass = 3900 times power generation amount or 30 x 30 x 130 = 117000 times power generation amount, the reverse osmosis water 52D of the turbine blade 8a Increase the power generation amount to minimize the amount of wear, increase the initial speed production volume with supercritical pressure steam 5H, make the turbine blade 8a the same, and maintain the same fuel amount power generation amount after subtracting the input of Mach 3 injection, etc. Aiming at 1000 times the steam turbine power generation amount, the cylinder inner rotor blade group 60C and the cylinder outer rotor blade group 60D are rotated by a counter rotating magnetic device 85 or a counter rotating gear device 85Y. And the horizontal axis 1h generator 1 driven gravity power generation building 12 floor surface and 10-30 floors, etc., to make the most advanced gravity power generation building 12 infinitely manufactured, the state-of-the-art science and technology is greatly improved, Using the necessary vertical all-blade steam water gravity turbine 11Z power generation method, the world's best operating profit rate for operating all products, and the world's best prevention of global warming, combined with various energy conservation cycle combined power generation and combined power generation .

図3の図2円筒内側動翼群60C兼内側軸装置60Aと、円筒外側動翼群60D兼外側軸装置60B夫々のタービン翼8aは、逆浸透水52Dを噴射超臨界圧力水蒸気5Hで吸引噴射真空中重力加速度加速して、動翼群のタービン翼8aに噴射駆動にしてタービン翼8aの同一を可能や摩耗量最少狙いにし、タービン翼8aの同一化大型化全自動製造容易や部品数僅少狙いにして、逆浸透水52D大質量超高速二重反転駆動大発電量狙いにし、嵌合組立部9Mで最も重要な構成は超精密螺子組立固定等超精密加工組立として、何回も分解組立を繰り返しても超高速回転で回転バランスに変化が無い構成や精度とし、円筒内側動翼群60C兼内側軸装置60Aと、円筒外側動翼群60D兼外側軸装置60Bの二重反転にして、円筒外側動翼群60Dを外側動翼60dの外入口翼60eや、外側動翼60dの外中間翼60g複数〜多数や、外側動翼60dの外出口翼60kにし、円筒内側動翼群60Cを内側動翼60cの内入口翼60fや、内側動翼60cの内中間翼60h複数〜多数や、内側動翼60cの内出口翼60jとして、二重反転磁気装置85又は二重反転歯車装置85Yにより二重反転する1組とし、横軸1hに発電機1を夫々具備して1組複数の発電機1発電にして、多数組の竪型全動翼蒸気水重力タービン11Z発電とし、最上部の1組を初速度製造の1組として、他は全部同一の地震等で被害僅少が可能な多数組とし、落差500〜800m狙いや部品数最少や全自動製造可能略全部狙いとして、給料世界一や雇用大増大する人類史上最大の貢献や超精密製造とし、同一燃料量既存蒸気タービン発電の1000倍発電量する竪型全動翼蒸気水重力タービン11Zにして、実験が必要ですが燃料費僅少で発電量を大幅に増大し、利益率抜群世界一の地球温暖化防止にする、各種エネルギ保存サイクル合体機関発電及び合体方法発電にする。 The turbine blades 8a of the cylinder inner rotor blade group 60C / inner shaft device 60A and the cylinder outer rotor blade group 60D / outer shaft device 60B in FIG. 3 suck and inject reverse osmosis water 52D with supercritical pressure water vapor 5H. Gravity acceleration in vacuum is accelerated and the turbine blades 8a of the rotor blade group are driven to inject to make the turbine blades 8a identical and aim for the least amount of wear, making the turbine blades 8a identical, making full-automatic manufacturing easy, and few parts Aiming at reverse osmosis water 52D large mass ultra high speed counter reversal drive large power generation amount, the most important structure in the fitting assembly part 9M is as a super precision processing assembly such as super precision screw assembly fixing many times disassembly and assembly Even if it repeats, it is set as the structure and precision which does not change in rotation balance by super-high-speed rotation, and it makes double inversion of cylindrical inner blade group 60C and inner shaft device 60A and cylindrical outer blade group 60D and outer shaft device 60B, Cylindrical outer blade group 6 D is an outer inlet blade 60e of the outer moving blade 60d, a plurality of outer intermediate blades 60g of the outer moving blade 60d or a plurality of outer intermediate blades 60d, and an outer outlet blade 60k of the outer moving blade 60d, and the cylindrical inner moving blade group 60C is used as the inner moving blade 60c. A plurality of inner intermediate blades 60h to a plurality of inner inlet blades 60f, inner rotor blades 60c, and inner outlet blades 60j of the inner rotor blades 60c are double-reversed by a counter-rotating magnetic device 85 or a counter-rotating gear device 85Y. Each set has a generator 1 on the horizontal axis 1h, and a set of a plurality of generators 1 generates power, and a number of sets of vertical all-blade steam water gravity turbine 11Z power generation, with the top set as the initial speed As one set of manufacturing, the others are all set to be able to minimize damage due to the same earthquake, etc., aiming for a drop of 500 to 800 m, minimizing the number of parts and fully automatic manufacturing, aiming at the world's best salary and employment increase The greatest contribution in human history and ultra-precision manufacturing, One fuel quantity The power generation capacity of the vertical steam turbine gravity water turbine 11Z, which is 1000 times that of the existing steam turbine power generation, requires experimentation, but greatly reduces the fuel cost and greatly increases the power generation capacity. Various energy storage cycle coalescence engine power generation and coalescence method power generation to prevent global warming.

図4の発電用超臨界圧力水蒸気5H製造する二重反転機関12Gは、製造過程では前記同様に、内側軸装置60A兼内側出力翼53A+外側軸装置60B兼外側出力翼53A夫々の両端に軸受12C具備し、夫々を別々に環状内側出力8s螺子組立固定や嵌め合い組立固定等に仮組立てして、工作機械で両端を保持超高速回転バランス調整加工等とし、バランス調整良好として本組立にする二重反転機関12Gとして、二重反転磁気装置85又は二重反転歯車装置85Yにより、内側軸装置60A+外側軸装置60Bを二重反転駆動し、多数の超臨界圧力水蒸気5H製造用逆浸透水52D冷却とした内側圧縮翼53C+外側圧縮翼53Cで、図5の太陽光加熱器21で加熱高温とした空気28aを入口外箱噴口6Gから吸入し、空気28aを超高速二重反転直線冷却圧縮にして、2段圧縮機12N連結直線冷却圧縮選択可能にし、圧縮比80〜100で圧縮空気熱交換器2Yに供給して、燃料噴射燃焼過熱蒸気管5Hと熱交換し、同一燃料量既存火力発電ボイラーの130倍の超臨界圧力水蒸気5H製造量狙いとして、一部で10MPa前後燃焼ガス49を吸引噴射して二重反転機関12Gを駆動し、30MPa前後超臨界圧力水蒸気5Hで逆浸透水52Dを吸引噴射真空中重力加速度加速して、同一燃料既存蒸気タービン発電の1000倍発電量にする、竪型全動翼蒸気水重力タービン11Z駆動の超臨界圧力水蒸気5Hを製造する、二重反転機関12Gにする。 In the manufacturing process, the counter rotating engine 12G that produces supercritical pressure steam 5H for power generation in FIG. 4 has bearings 12C at both ends of the inner shaft device 60A and the inner output blade 53A + the outer shaft device 60B and the outer output blade 53A in the same manner as described above. Each of them is temporarily assembled separately into an annular inner output 8s screw assembly fixing or a fitting assembly fixing, and both ends are held by a machine tool, and an ultra-high speed rotation balance adjustment process, etc. is performed, and this assembly is made with good balance adjustment. As the heavy reversal engine 12G, the double reversal magnetic device 85 or the double reversal gear device 85Y drives the inner shaft device 60A + the outer shaft device 60B to be reversed in reverse, cooling the reverse osmosis water 52D for producing a large number of supercritical pressure steam 5H. With the inner compression blades 53C and the outer compression blades 53C, the air 28a heated at the high temperature by the solar heater 21 of FIG. 5 is sucked from the inlet outer box nozzle 6G, and the air 28a is drawn. High-speed counter-rotating linear cooling compression, two-stage compressor 12N coupled linear cooling compression selection is possible, and the compressed air is supplied to the compressed air heat exchanger 2Y at a compression ratio of 80 to 100 to exchange heat with the fuel injection combustion superheated steam pipe 5H. In order to produce supercritical pressure steam 5H that is 130 times the same fuel amount as existing thermal power boilers, the combustion engine 49 is partially sucked and injected to drive the counter-rotating engine 12G, and the supercritical pressure is about 30 MPa. The supercritical pressure water vapor 5H driven by the vertical all blade steam water gravity turbine 11Z, which accelerates the gravity acceleration of the reverse osmosis water 52D with the water vapor 5H, and accelerates the gravitational acceleration in vacuum to 1000 times the same fuel existing steam turbine power generation. The counter rotating engine 12G to be manufactured is used.

海底や永久凍土地下のメタン回収用二重反転機関12Gは、逆浸透水52D冷却した内側軸装置60A兼内側圧縮翼53C+外側軸装置60B兼外側圧縮翼53Cにより、図5の太陽光加熱器21で加熱高温等とした空気28aを吸入して、夫々逆浸透水52D冷却した外側圧縮翼53C内側圧縮翼53Cで超高速二重反転空気冷却圧縮にし、最も効率良く空気圧縮熱交換して超臨界圧力水蒸気5H製造用逆浸透水52Dを加熱して、圧縮空気熱交換器2yの超臨界圧力水蒸気管5Hに30MPa前後で送水し、圧縮比80〜100狙いの冷却圧縮空気にして、圧縮空気熱交換器2Yに供給燃料噴射燃焼熱交換し、超臨界圧力水蒸気5H〜高温逆浸透水52Dを製造し、米国シェールガス回収装置+日本メタン回収装置+二重反転機関12Gにして、超臨界圧力水蒸気5H〜高温逆浸透水52Dをメタンハイドレート注入メタンガスで回収し、二重反転機関12G排気温度をー200℃等としてメタンガス冷却して液体メタンで回収して、永久凍土地下のメタン回収では囲いを設けて超大型の温室にして外気と遮断すると、メタン菌メタン製造量の研究や日照時間や水滴の多い温室牧草地放牧の研究とし、液体メタンの大量生産や牛肉の大量生産等の実験にする二重反転機関12Gにする。 The counter-rotating engine 12G for methane recovery under the seabed or permafrost is converted into the solar heater 21 of FIG. 5 by the inner shaft device 60A and inner compression blade 53C + outer shaft device 60B and outer compression blade 53C cooled by reverse osmosis water 52D. Intake air 28a heated to high temperature etc., and reverse osmosis water 52D cooled outer compression blades 53C to make ultra-high speed counter-rotating air cooling compression with inner compression blades 53C, and most efficiently air compression heat exchange to supercritical The reverse osmosis water 52D for producing the pressure steam 5H is heated and supplied to the supercritical pressure steam pipe 5H of the compressed air heat exchanger 2y at about 30 MPa, and the compressed compressed air is heated to a compressed compressed air with a compression ratio of 80 to 100. The fuel injection combustion heat exchange is performed on the exchanger 2Y to produce supercritical water vapor 5H to high temperature reverse osmosis water 52D, US shale gas recovery device + Japan methane recovery device + counter-rotating engine 12G Then, the supercritical pressure water vapor 5H to high temperature reverse osmosis water 52D is recovered with methane hydrate-injected methane gas, and the counter-reversal engine 12G exhaust temperature is -200 ° C or the like, cooled with methane gas, recovered with liquid methane, and permafrost. In the underground methane recovery, if an enclosure is provided to block out the outside air with an ultra-large greenhouse, research on the production of methane fungus methane, research on sunshine hours and greenhouse pasture grazing with a lot of water droplets, mass production of liquid methane and beef The counter-rotating engine 12G is used for experiments such as mass production.

図5の太陽光加熱器21の熱製造は、空気20℃を圧縮比8で13倍の260℃になるため、二重反転機関12G圧縮機で太陽光加熱器21加熱空気28aを10MPa等圧縮翼53C圧縮し、圧縮空気熱交換器2Yで燃料噴射燃焼熱交換して超臨界圧力水蒸気5Hを製造して、同一燃料量の超臨界圧力水蒸気5H製造量を既存ボイラーの130倍狙いにし、竪型全動翼蒸気水重力タービン11Zを逆浸透水52D+超臨界圧力水蒸気5H駆動して、同一燃料量既存蒸気タービン発電の1000倍発電量狙いにし、図に無い液体酸素製造機89Aを同様に駆動では、超臨界圧力水蒸気5H温熱+液体空気28a冷熱製造の電気+液体空気冷熱+過熱蒸気温熱供給設備3Dにして、温熱利用全盛や冷熱利用全盛にするもので、太陽光加熱器21を水面に浮力を設け又は平地に円形鉄道を設けて具備し、太陽光を東から西に直角維持回転制御する図に無い水上装置や陸上装置として、太陽光加熱器21には回転支持部4fを設けて歯車装置4dやローラー4eを具備し、円筒回転部77Gとして太陽光を上下方向直角維持回転制御して、浮力や円形鉄道利用により東西方向直角維持回転制御する装置とし、太陽光を2方向直角維持回転制御して、加熱保存熱量最大狙う熱吸収管4H内空気温度を最高にする装置とし、地球最大熱量の太陽光を矩形長レンズ2dにより直線状に集めて、焦点距離付近に熱吸収管4H具備内部空気路28A空気28a温度を最高にして、外部空気路28A空気28a温度も上昇し、既存のレンズ断面を直線状に延長矩形の長レンズ2dとして、レンズ材質全部を使用可能とし、発泡プラスチック等の断熱材2cを円筒回転部77G等で囲って円筒等の長大な筒として、長大な長レンズ2dを継手80A+締付具80Bで密封し、上部を外部空気路28Aとし熱吸収管4H内部を内部空気路28Aとして、2空気路28A選択吸入の太陽光加熱器21にする。 Since the heat production of the solar heater 21 in FIG. 5 is 260 ° C., which is 13 times the compression ratio of 8 at 20 ° C., the solar heater 21 heated air 28a is compressed by 10 MPa with a counter rotating engine 12G compressor. The blade 53C is compressed and the fuel injection combustion heat exchange is performed by the compressed air heat exchanger 2Y to produce supercritical pressure steam 5H, aiming to produce supercritical pressure steam 5H of the same fuel amount 130 times that of the existing boiler, Type full-blade steam water gravity turbine 11Z is driven by reverse osmosis water 52D + supercritical pressure steam 5H, aiming to generate 1000 times the same amount of fuel as existing steam turbine power generation, and similarly driving liquid oxygen producing machine 89A not shown Then, the supercritical pressure water vapor 5H warm temperature + liquid air 28a cold electricity production + liquid air cold heat + superheated steam temperature supply equipment 3D is used to make warm use prime and cold use prime, solar heater 21 The solar heater 21 is provided with a rotation support portion 4f as a floating device or land device not shown in the figure, which is provided with buoyancy on the water surface or a circular railroad on a flat ground and maintains and rotates sunlight at a right angle from east to west. It is equipped with a gear device 4d and a roller 4e, and as a cylindrical rotating part 77G, it controls the rotation of sunlight in the vertical direction at right angles, and controls the rotation in the east-west direction at right angles by using buoyancy and circular railway, and the sunlight is bi-directional. A device that maximizes the air temperature in the heat absorption tube 4H that aims at the maximum heat storage heat amount by controlling the rotation at right angles, and collects sunlight with the maximum heat amount in a straight line by the rectangular long lens 2d and absorbs heat near the focal length. The internal air passage 28A has the highest temperature of the air 28a, the temperature of the external air passage 28A increases, and the existing lens cross section is linearly extended as a long rectangular lens 2d. Can be used, and the heat insulating material 2c such as foamed plastic is surrounded by a cylindrical rotating part 77G or the like to form a long cylinder such as a cylinder. The long long lens 2d is sealed with a joint 80A + fastener 80B, and the upper part is an external air passage. 28A, the inside of the heat absorption pipe 4H is used as the internal air passage 28A, and the solar air heater 21 for selective suction of the two air passages 28A is used.

図6の2段圧縮機12Nは、内側軸装置60A兼内側圧縮翼53C+外側軸装置60B兼外側圧縮翼53Cの両端に軸受12C具備して、夫々を別々に環状内側圧縮翼53C螺子組立固定や嵌め合い組立固定等に仮組立てして工作機械で両端を保持超高速回転バランス調整加工等とし、バランス調整良好として本組立にする2段圧縮機12Nとして、二重反転磁気装置85〜二重反転歯車装置85Yにより、内側軸装置60A+外側軸装置60Bを二重反転駆動し、多数の逆浸透水52D冷却とした内側圧縮翼53C+外側圧縮翼53Cで、入口外箱噴口6Gから吸入した空気28aを直線冷却圧縮して、2段圧縮機12N超高速二重反転直線冷却圧縮や連結直線冷却圧縮にし、圧縮比80〜100等で圧縮空気熱交換器2Yに供給して、燃料噴射燃焼超臨界圧力水蒸気管5Hと熱交換し、同一燃料量既存火力発電ボイラーの130倍の超臨界圧力水蒸気5H製造量狙い連結駆動として、二重反転機関12Gや二重反転噴射機関12Eや二重反転空気噴射機関12Fと連結駆動等とし、複数段空気圧縮機として各種用途に使用する、2段圧縮機12Nにする。 The two-stage compressor 12N of FIG. 6 includes bearings 12C at both ends of the inner shaft device 60A and inner compression blade 53C + outer shaft device 60B and outer compression blade 53C, and each of them is separately attached to the annular inner compression blade 53C screw assembly and fixing. Temporarily assembled to fit assembly fixed, etc., held at both ends with machine tool, used as ultra-high speed rotation balance adjustment processing, etc., as a two-stage compressor 12N to be fully assembled with good balance adjustment, double reversal magnetic device 85-double reversal The gear device 85Y causes the inner shaft device 60A + the outer shaft device 60B to be double-reversely driven, and the air 28a sucked from the inlet outer box nozzle 6G by the inner compression blades 53C + the outer compression blades 53C cooled by a large number of reverse osmosis water 52D. Linearly cooled and compressed to form a two-stage compressor 12N ultra-high speed counter-rotating linearly cooled compression or connected linearly cooled compression, and supplied to the compressed air heat exchanger 2Y at a compression ratio of 80 to 100, etc. Heat exchange is performed with the injection combustion supercritical pressure steam pipe 5H, and the same reversal power steam boiler 5H production volume 130 times that of the existing thermal power generation boiler is used as a coupled drive for the counter rotating engine 12G, counter rotating engine 12E, two A two-stage compressor 12N used for various purposes as a multistage air compressor is connected to the heavy inversion air injection engine 12F.

既存最先端科学技術が無茶過ぎるため予想計算発電量等夫々の倍率が膨大となり、実験が必要で発電量が駆動質量に比例するため逆浸透水52D駆動中核の、二重反転機関12G+竪型全動翼蒸気水重力タービン11Z発電により、同一燃料量既存火力発電の100倍〜1000倍発電量で利用する可能性がある。 The existing state-of-the-art science and technology is too unreasonable, so the estimated power generation amount, etc., is enormous, the experiment is necessary, and the power generation amount is proportional to the driving mass, so the reverse osmosis water 52D driving core, counter rotating engine 12G + vertical type all There is a possibility of utilizing the same fuel amount 100 to 1000 times the power generation amount of the existing thermal power generation by the moving blade steam water gravity turbine 11Z power generation.

0:各種エネルギ保存サイクル合体機関(各種熱エネルギは空気温度として熱ポンプで圧縮熱回収して、空気28a冷熱+過熱蒸気50温熱に分割保存使用、重力エネルギは上昇保存噴射真空中重力加速度加速して発電電力に変換使用する各種エネルギ合体エンジン合体手段) 1:発電機、 1c:液体燃料、 1e:工場発電、 1f:横軸軸受0接近(横軸軸受+推力軸受+電磁石等で軸受荷重0接近) 1h:横軸(外側軸装置と内側軸装置の回転方向交互にする軸) 1A:蓄電池、 1D:燃料噴射ポンプ、 1H:自家発電、 1K:液体燃料制御弁、 1L:高圧燃料加熱管、 1M:オスプレイ特大、 1N:オスプレイ大型、 2A:耐熱材、 2C:1〜複数段圧縮熱回収器(熱エネルギを空気温度とし熱ポンプで複数回圧縮熱交換器で複数回熱回収して残りを温熱50+液体冷熱28aに分割保存) 2Y:圧縮空気熱交換器(高圧空気28a冷熱+過熱蒸気50温熱製造) 2b:水抵抗僅少(船底に空気や燃焼ガスや過熱蒸気等を高速噴射して水抵抗僅少にする) 2c:断熱材、 2d:長レンズ(凸レンズ断面を直線状に延長矩形とし、複数使用で焦点距離最短レンズ幅最大狙う) 3d:合体タービン、 3e:2段圧縮機、 3s:簡単圧縮機、 3u:タービン、 3E:比重大物質(水銀や水等常温で液体の比重大物質) 3E:比重大物質(低融点合金の500度以下液体で安定高温液体合金) 3Q:理論膨張機関(ボイルの法則で最良狙う) 3R:理論ガスタービン、 3S:理論蒸気タービン、 3T:理論気体圧縮機、 3U:理論タービン、 4H:熱吸収管(長レンズ2dで太陽光を熱吸収管に直線状に集めて管内空気温度を最高に加熱して菅外空気温度も上昇する) 4J:蓄電池駆動車輪、 4L:理論膨張機関自動車、 4M:理論タービン自動車、 4Q:理論燃焼室(過熱蒸気製造で理論空燃比燃焼既存の4倍燃焼量等や20倍圧力過熱蒸気噴射狙う燃焼室)、 4T:軸流二重反転圧縮機、 4V:軸流二重反転タービン、 4d:歯車装置、 4e:ローラー、 4f:回転支持部、 5:空気噴射ノズル、 5b:圧縮空気路、 5G:水蒸気加熱管、 5G:水管、 5H:超臨界圧力水蒸気、 5H:超臨界圧力水蒸気管、 5J:圧縮空気過熱管、 5M:高圧高温燃焼室、 5Q:高圧高温水制御弁、 5S:圧縮空気加熱管、 5V:圧縮空気制御弁、 5Z:水ポンプ、 6:最終圧縮翼、 6A:過熱蒸気ロケット噴口(用途により逆噴射可能にした噴口) 6B:圧縮空気噴射ノズル、 6F:水噴射ノズル、 6G:外箱噴口、 6H:排水管、 6W:比重大物質加速機、 6X:燃料噴射ノズル、 6Y:燃焼ガス噴射ノズル、 6Z:過熱蒸気噴射ノズル、 7A:プロペラ、 7B:回転翼、 7C:スクリュー、 8a:タービン翼、 8d:上側膨張翼群、 8e:下側膨張翼群、 8f:組立タービン翼群、 8g:上側圧縮翼群、 8h:下側圧縮翼群、 8j:組立圧縮翼群、 8k:内側圧縮翼(両側中心支持内側軸装置具備) 8m:外側圧縮翼(両側中心支持外側軸装置具備)、 8n:内側出力翼(両側中心支持内側軸装置具備)、 8p:外側出力翼(両側中心支持外側軸装置具備) 8q:内側圧縮翼(回転速度や周速度に合せた角度や曲線や回転半径二重反転とした圧縮翼) 8r:外側圧縮翼(回転速度や周速度に合せた角度や曲線や回転半径二重反転とした圧縮翼)、 8s:内側出力翼(回転速度や周速度に合せた角度や曲線や回転半径二重反転とした出力翼)、 8t:外側出力翼(回転速度や周速度に合せた角度や曲線や回転半径二重反転とした出力翼) 9B:電磁石永久磁石、 9C:電磁石永久磁石、 9D:空気圧部、 9E:空気圧部、 9M:嵌合組立部、 9Q:垂直平行板、 9b:上吸引下反発磁石、 9c:吸引磁石、 9d:反発磁石、 11:全動翼蒸気タービン、 11B:二重反転自動車、 11C:二重反転船舶、 11D:復水器、 11E:二重反転飛行機、 11F:二重反転噴射船舶、 11G:二重反転噴射飛行機、 11I:回転翼飛行機、 11J:回転翼噴射飛行機、 11M:オスプレイ特大、 11N:オスプレイ大型、 12:重力発電建物、 12A:鉄骨骨組、 12B:柱管、 12C:軸受、 12D:角フランジ、 12E:二重反転噴射機関、 12F:二重反転空気噴射機関、 12G:二重反転機関、 12N:2段圧縮機、 21:太陽光加熱器(吸入空気路を熱吸収管4H内にも設けて主使用する) 24A:圧縮空気制御弁、 25:過熱蒸気制御弁、 25b:高圧燃料制御弁、 25c:燃料管、 28A:吸入空気路、 28a:空気、 28b:吸入空気路、 29a:超高圧空気、 38H:理論スクリュー船舶、 38J:理論噴射船舶、 38T:理論噴射飛行機、 38U:理論プロペラ飛行機、 49:燃焼ガス、 50:過熱蒸気、 50:過熱蒸気室、 50A:高圧高温水、 50a:過熱蒸気噴射管、 52A:水、 52B:水管、 52C:アルコール、 52C:アルコール管、 52D:逆浸透水(固形物除去タービン翼8aの摩耗量を僅少にする水)、 52D:逆浸透水管、 52E:蒸留水、 52E:蒸留水管、 52a:水、 52b:高温水、 53A:出力翼(駆動流体速度の1/10前後外周速度狙う出力翼) 53B:出力翼(駆動流体速度に近い外周速度狙う出力翼) 53C:圧縮翼(5H製造用の逆浸透水52D冷却翼) 60A:内側軸装置、 60B:外側軸装置、 60G:外側環状翼、 60H:内側環状翼、 77A:ガスタービン外箱、 77B:ロケット外箱、 77C:二重反転機外箱、 77G:円筒回転部、 77a:タービン外箱、 77b:圧縮機外箱、 80:軸受(磁力+空気圧利用で可能な限り軸受荷重を0に近付ける) 80A:継手、 80B:締付具、 80a:推力軸受(磁力+空気圧利用で可能な限り軸受荷重を0に近付ける) 85:二重反転磁気装置(磁石利用歯車高さ僅少から無接触にし横軸1h歯車により相互逆回転にする) 85Y:二重反転歯車装置(横軸1h歯車により相互逆回転にする) 88B:蒸気合体空気噴射部、 88C:理論空気噴射部、 88L:蒸気合体水噴射部、 88M:理論水噴射部、 89A:液体酸素製造機 0: Various energy storage cycle coalesced engine (various heat energy is compressed and recovered by heat pump as air temperature, divided into air 28a cold heat + superheated steam 50 heat, and gravitational energy is accelerated and accelerated by gravitational acceleration in vacuum 1) Generator, 1c: Liquid fuel, 1e: Factory power generation, 1f: Horizontal shaft bearing 0 approach (horizontal shaft bearing + thrust bearing + electromagnet bearing load 0) 1h: Horizontal axis (axis that alternates the rotation direction of the outer shaft device and the inner shaft device) 1A: Storage battery, 1D: Fuel injection pump, 1H: In-house power generation, 1K: Liquid fuel control valve, 1L: High-pressure fuel heating pipe , 1M: Osprey extra large, 1N: Osprey large size, 2A: heat-resistant material, 2C: 1 to multi-stage compression heat recovery device (thermal energy is air temperature and multiple times with heat pump Heat recovered multiple times with a heat exchanger and the remainder is divided and stored as hot 50 + liquid cold 28a 2Y: compressed air heat exchanger (high-pressure air 28a cold + superheated steam 50 hot) 2b: little water resistance (air on the bottom of the ship) 2c: Insulating material, 2d: Long lens (Convex lens cross section is a straight extension rectangle, multiple lenses are used to aim at the shortest focal length lens width) 3d : Combined turbine, 3e: Two-stage compressor, 3s: Simple compressor, 3u: Turbine, 3E: Specific critical substances (specific critical substances that are liquid at room temperature such as mercury and water) 3E: Specific critical substances (500 of low melting point alloy) 3Q: Theoretical expansion engine (best target by Boyle's law) 3R: Theoretical gas turbine, 3S: Theoretical steam turbine, 3T: Theoretical gas compressor, 3U: Theoretical tank Bin, 4H: Heat absorption tube (The long lens 2d linearly collects sunlight into the heat absorption tube and heats the air temperature inside the tube to the maximum to increase the outside air temperature.) 4J: Battery drive wheel, 4L: Theory Expansion engine vehicle, 4M: Theoretical turbine vehicle, 4Q: Theoretical combustion chamber (combustion chamber aiming at the 20% pressure superheated steam injection, etc., and the conventional air-fuel ratio combustion in the superheated steam production), 4T: Axial flow double reversal Compressor, 4V: Axial flow counter-rotating turbine, 4d: Gear device, 4e: Roller, 4f: Rotation support, 5: Air injection nozzle, 5b: Compressed air passage, 5G: Steam heating pipe, 5G: Water pipe, 5H : Supercritical pressure steam, 5H: Supercritical pressure steam pipe, 5J: Compressed air superheated pipe, 5M: High pressure high temperature combustion chamber, 5Q: High pressure high temperature water control valve, 5S: Compressed air heating pipe, 5V: Compressed air control valve, 5Z Water pump, 6: final compression blade, 6A: superheated steam rocket nozzle (injection nozzle that can be back-injected depending on the application) 6B: compressed air injection nozzle, 6F: water injection nozzle, 6G: outer box nozzle, 6H: drain pipe, 6W : Specific critical material accelerator, 6X: Fuel injection nozzle, 6Y: Combustion gas injection nozzle, 6Z: Superheated steam injection nozzle, 7A: Propeller, 7B: Rotary blade, 7C: Screw, 8a: Turbine blade, 8d: Upper expansion blade Group, 8e: lower expansion blade group, 8f: assembly turbine blade group, 8g: upper compression blade group, 8h: lower compression blade group, 8j: assembly compression blade group, 8k: inner compression blade (both center support inner shafts) 8m: Outer compression wing (both center support outer shaft device) 8n: Inner output wing (both center support inner shaft device), 8p: Outer output wing (both center support outer shaft device) 8q: Inner compression blade (angle, curve and rotation radius according to rotational speed and circumferential speed, and rotation radius doubly reversed compression blade) 8r: Outer compression blade (angle, curve and rotation radius according to rotation speed and circumferential speed) 8s: Inner output blade (angle or curve matched to rotational speed or circumferential speed, output blade with rotational radius double reversed), 8t: Outer output blade (rotational speed or circumferential speed) 9B: Electromagnet permanent magnet, 9C: Electromagnet permanent magnet, 9D: Pneumatic part, 9E: Pneumatic part, 9M: Mating assembly part, 9Q: Vertical parallel plate 9b: Upper repulsive lower repulsive magnet, 9c: Attracting magnet, 9d: Repulsive magnet, 11: Full rotor blade steam turbine, 11B: Counter rotating vehicle, 11C: Counter rotating vessel, 11D: Condenser, 11E: Two Double reversal plane, 11F: Double reversal 11G: Counter-rotating jet airplane, 11I: Rotary wing jet airplane, 11J: Rotary wing jet airplane, 11M: Osprey extra large, 11N: Large Osprey, 12: Gravity power generation building, 12A: Steel frame, 12B: Column tube, 12C: Bearing, 12D: Square flange, 12E: Counter-rotating injection engine, 12F: Counter-rotating air injection engine, 12G: Counter-rotating engine, 12N: Two-stage compressor, 21: Solar heater (intake air path) 24A: Compressed air control valve, 25: Superheated steam control valve, 25b: High pressure fuel control valve, 25c: Fuel pipe, 28A: Intake air path, 28a: Air, 28b: intake air passage, 29a: ultra-high pressure air, 38H: theoretical screw ship, 38J: theoretical injection ship, 38T: theoretical injection airplane, 38U: reason Propeller airplane, 49: combustion gas, 50: superheated steam, 50: superheated steam chamber, 50A: high-pressure high-temperature water, 50a: superheated steam injection pipe, 52A: water, 52B: water pipe, 52C: alcohol, 52C: alcohol pipe, 52D: Reverse osmosis water (water that reduces the amount of abrasion of the solid matter removing turbine blade 8a), 52D: Reverse osmosis water pipe, 52E: Distilled water, 52E: Distilled water pipe, 52a: Water, 52b: Hot water, 53A: Output Blade (output blade aiming at outer peripheral speed around 1/10 of driving fluid speed) 53B: Output blade (output blade aiming at outer peripheral speed close to driving fluid speed) 53C: Compression blade (reverse osmosis water 52D cooling blade for 5H production) 60A: Inner shaft device, 60B: Outer shaft device, 60G: Outer annular blade, 60H: Inner annular blade, 77A: Gas turbine outer box, 77B: Rocket outer box, 77C: Heavy reversing machine outer box, 77G: Cylindrical rotating part, 77a: Turbine outer box, 77b: Compressor outer box, 80: Bearing (Bearing load as close to 0 as possible using magnetic force + air pressure) 80A: Joint, 80B: Clamping tool 80a: Thrust bearing (bearing load as close to 0 as possible by using magnetic force + pneumatic pressure) 85: Counter-rotating magnetic device (magnet using gear height from slight to non-contact and rotating counterclockwise with 1h gear on horizontal axis 85Y: Counter-rotating gear device (reciprocally reverse rotation by a 1h gear on the horizontal axis) 88B: Steam combined air injection unit, 88C: Theoretical air injection unit, 88L: Steam combined water injection unit, 88M: Theoretical water injection Part, 89A: Liquid oxygen production machine

Claims (241)

二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)を重力発電建物(12)に具備した各種エネルギ保存サイクル合体機関及び合体方法。   Various energy storage cycle coalescence engines and coalescence methods comprising a counter rotating engine (12G) + vertical-type all blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) in a gravity power generation building (12). 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)を重力発電建物(12)の逆浸透水管(52D)兼柱管(12B)に具備した各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical all blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) to reverse osmosis water pipe (52D) and column pipe (12B) of gravity power generation building (12) Various energy storage cycle coalescence engines and coalescence methods provided. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)を重力発電建物(12)の柱に具備した各種エネルギ保存サイクル合体機関及び合体方法。   Combined engine and method for combining various energy conservation cycles comprising a counter-rotating engine (12G) + vertical all-blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) in a column of gravity power generation building (12) . 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)を重力発電建物(12)の中に具備した各種エネルギ保存サイクル合体機関及び合体方法。   Combined engine and method for combining various energy storage cycles comprising a counter-rotating engine (12G) and a vertical all blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) in a gravity power generation building (12) . 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)を重力発電建物(12)の逆浸透水管(52D)兼柱管(12B)角フランジ(12D)に固定した各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical all blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) with reverse osmosis water pipe (52D) and column pipe (12B) angle of gravity power generation building (12) Various energy storage cycle coalescence engines and coalescence methods fixed to a flange (12D). 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)を重力発電建物(12)の逆浸透水管(52D)兼柱管(12B)角フランジ(12D)を角形として鉄骨骨組(12A)に固着した各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical all blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) with reverse osmosis water pipe (52D) and column pipe (12B) angle of gravity power generation building (12) Various energy storage cycle coalescence engines and coalescence methods in which the flange (12D) is square and fixed to the steel frame (12A). 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)を重力発電建物(12)の逆浸透水管(52D)兼柱管(12B)角フランジ(12D)を角形として鉄骨骨組(12A)にボルト締めした各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical all blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) with reverse osmosis water pipe (52D) and column pipe (12B) angle of gravity power generation building (12) Various energy storage cycle coalescence engines and coalescence methods in which the flange (12D) is square and bolted to the steel frame (12A). 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電+超臨界圧力水蒸気管(5H)の重力発電建物(12)の逆浸透水管(52D)兼柱管(12B)角フランジ(12D)を角形として鉄骨骨組(12A)上下で固着した各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation + supercritical pressure steam pipe (5H) gravity power generation building (12) reverse osmosis water pipe (52D) and column pipe (12B) Various energy storage cycle coalescence engine and coalescence method in which the square flange (12D) is square and fixed on the upper and lower sides of the steel frame (12A). 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電+超臨界圧力水蒸気管(5H)の重力発電建物(12)の逆浸透水管(52D)兼柱管(12B)角フランジ(12D)を角形として鉄骨骨組(12A)上下でボルト締めした各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation + supercritical pressure steam pipe (5H) gravity power generation building (12) reverse osmosis water pipe (52D) and column pipe (12B) Various energy conservation cycle coalescence engines and coalescence methods in which the square flange (12D) is square and bolted up and down the steel frame (12A). 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電+超臨界圧力水蒸気管(5H)の重力発電建物(12)の逆浸透水管(52D)兼柱管(12B)角フランジ(12D)を角形として鉄骨骨組(12A)上下のボルト締めで階数を増大する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation + supercritical pressure steam pipe (5H) gravity power generation building (12) reverse osmosis water pipe (52D) and column pipe (12B) Various energy conservation cycle coalescence engines and coalescence methods in which the square flanges (12D) are square and the steel frames (12A) are bolted up and down to increase the rank. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電+超臨界圧力水蒸気管(5H)の重力発電建物(12)の逆浸透水管(52D)兼柱管(12B)角フランジ(12D)を角形として鉄骨骨組(12A)上下のボルト締めで階数を1階以上とした各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation + supercritical pressure steam pipe (5H) gravity power generation building (12) reverse osmosis water pipe (52D) and column pipe (12B) Various energy conservation cycle coalescence engines and coalescence methods in which the square flange (12D) is square and the steel frame (12A) is bolted up and down to make the floor number one or more. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電+超臨界圧力水蒸気管(5H)の重力発電建物(12)の逆浸透水管(52D)兼柱管(12B)角フランジ(12D)を角形として鉄骨骨組(12A)上下のボルト締めで階数を20階以下とした各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation + supercritical pressure steam pipe (5H) gravity power generation building (12) reverse osmosis water pipe (52D) and column pipe (12B) Various energy conservation cycle coalescence engines and coalescence methods in which the square flange (12D) is square and the steel frame (12A) is bolted up and down to make the floor 20 stories or less. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電+超臨界圧力水蒸気管(5H)の重力発電建物(12)の逆浸透水管(52D)兼柱管(12B)角フランジ(12D)を角形として鉄骨骨組(12A)上下のボルト締めで階数を15階以下とした各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation + supercritical pressure steam pipe (5H) gravity power generation building (12) reverse osmosis water pipe (52D) and column pipe (12B) Various energy storage cycle coalescence engines and coalescence methods in which a square flange (12D) is square and a steel frame (12A) is bolted up and down to reduce the floor to 15 floors or less. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電+超臨界圧力水蒸気管(5H)の重力発電建物(12)の逆浸透水管(52D)兼柱管(12B)角フランジ(12D)を角形として鉄骨骨組(12A)上下のボルト締めで階数を10階以下とした各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation + supercritical pressure steam pipe (5H) gravity power generation building (12) reverse osmosis water pipe (52D) and column pipe (12B) Various energy storage cycle coalescence engines and coalescence methods in which the square flange (12D) is square and the steel frame (12A) is bolted up and down to reduce the rank to 10 floors or less. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電+超臨界圧力水蒸気管(5H)の重力発電建物(12)の逆浸透水管(52D)兼柱管(12B)角フランジ(12D)を角形として鉄骨骨組(12A)上下のボルト締めで階数を8階以下とした各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation + supercritical pressure steam pipe (5H) gravity power generation building (12) reverse osmosis water pipe (52D) and column pipe (12B) Various energy storage cycle coalescence engines and coalescence methods in which the square flange (12D) is square and the steel frame (12A) is bolted up and down to make the rank 8 or less. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電+超臨界圧力水蒸気管(5H)の重力発電建物(12)の逆浸透水管(52D)兼柱管(12B)角フランジ(12D)を角形として鉄骨骨組(12A)上下のボルト締めで階数を6階以下とした各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation + supercritical pressure steam pipe (5H) gravity power generation building (12) reverse osmosis water pipe (52D) and column pipe (12B) Various energy storage cycle coalescence engines and coalescence methods in which the square flange (12D) is square and the steel frame (12A) is bolted up and down to reduce the rank to six or less. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇使用する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Various energy storage cycle coalescence engines and coalescence methods that use reverse osmosis water (52D) at the top. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速で噴射する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + various energy storage cycle coalescence engine and coalescence method injecting with acceleration of gravity acceleration in increasing vacuum . 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ3以上で噴射する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + gravitational acceleration acceleration during vacuum increase Mach 3 or more energy conservation cycle coalescence engine And coalescing method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ30以下で加速する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + gravitational acceleration acceleration of increasing vacuum degree Various energy conservation cycle coalescence engine And coalescing method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ1以上で噴射する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + gravitational acceleration acceleration while raising the vacuum degree Various energy conservation cycle coalescence engine And coalescing method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ10以下で加速する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + gravitational acceleration acceleration in increasing vacuum degree Various energy conservation cycle combined engine And coalescing method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速で噴射真空中重力加速度加速する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + gravitational acceleration acceleration during vacuum increase, various energy conservation cycles that accelerate gravity acceleration in vacuum Merger engine and merger method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ3以上で噴射真空中重力加速度加速する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + gravitational acceleration acceleration during increasing vacuum degree Energy conservation cycle coalescence engine and coalescence method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ30以下で加速真空中重力加速度加速する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + gravitational acceleration acceleration during vacuum increase Mach 30 or less accelerates acceleration of gravity acceleration in vacuum Energy conservation cycle coalescence engine and coalescence method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ1以上で噴射真空中重力加速度加速する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + gravitational acceleration acceleration during increasing vacuum degree Energy conservation cycle coalescence engine and coalescence method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ10以下で加速真空中重力加速度加速する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + gravitational acceleration acceleration during vacuum increase Mach 10 or less accelerates gravitational acceleration in vacuum Energy conservation cycle coalescence engine and coalescence method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速で噴射真空中重力加速度加速円筒外側動翼群(60D)円筒内側動翼群(60C)に噴射する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + Reverse osmosis water (52D) injection speed + Gravity acceleration acceleration during vacuum increase Gravity acceleration acceleration cylinder outer rotor blade group in vacuum (60D) Various energy storage cycle coalescence engines and coalescence methods for injecting into the cylindrical inner blade group (60C). 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ3以上で噴射真空中重力加速度加速円筒外側動翼群(60D)円筒内側動翼群(60C)に噴射する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + Gravity acceleration acceleration during increasing vacuum degree Mach 3 or more injection Gravity acceleration acceleration cylinder outside vacuum Various energy storage cycle coalescing engines and coalescence methods for injecting the blade group (60D) into the cylindrical inner blade group (60C). 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ30以下で加速真空中重力加速度加速円筒外側動翼群(60D)円筒内側動翼群(60C)に噴射する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + Gravity acceleration acceleration under vacuum rises below Mach 30 Acceleration in vacuum gravity acceleration cylinder outside vacuum Various energy storage cycle coalescing engines and coalescence methods for injecting the blade group (60D) into the cylindrical inner blade group (60C). 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ1以上で噴射真空中重力加速度加速円筒外側動翼群(60D)円筒内側動翼群(60C)に噴射する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + gravity acceleration acceleration during vacuum increase Mach 1 or higher injection Gravity acceleration acceleration cylinder outside vacuum Various energy storage cycle coalescing engines and coalescence methods for injecting the blade group (60D) into the cylindrical inner blade group (60C). 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ10以下で加速真空中重力加速度加速円筒外側動翼群(60D)円筒内側動翼群(60C)に噴射する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + Gravity acceleration acceleration under vacuum rises below Mach 10 Acceleration in vacuum gravity acceleration cylinder outside vacuum Various energy storage cycle coalescing engines and coalescence methods for injecting the blade group (60D) into the cylindrical inner blade group (60C). 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速で噴射真空中重力加速度加速円筒外側動翼群(60D)円筒内側動翼群(60C)に噴射夫々を二重反転駆動する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + Reverse osmosis water (52D) injection speed + Gravity acceleration acceleration during vacuum increase Gravity acceleration acceleration cylinder outer rotor blade group in vacuum (60D) Various energy storage cycle coalescing engines and coalescence methods in which each of the injections is driven into the cylinder inner rotor blade group (60C) in reverse rotation. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ3以上で噴射真空中重力加速度加速円筒外側動翼群(60D)円筒内側動翼群(60C)に噴射夫々を二重反転駆動する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + Gravity acceleration acceleration during increasing vacuum degree Mach 3 or more injection Gravity acceleration acceleration cylinder outside vacuum Various energy storage cycle coalescing engines and coalescence methods for driving each of the injections into the rotor blade group (60D) and the cylinder inner rotor blade group (60C) in reverse rotation. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ30以下で加速真空中重力加速度加速円筒外側動翼群(60D)円筒内側動翼群(60C)に噴射夫々を二重反転駆動する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + Gravity acceleration acceleration under vacuum rises below Mach 30 Acceleration in vacuum gravity acceleration cylinder outside vacuum Various energy storage cycle coalescing engines and coalescence methods for driving each of the injections into the rotor blade group (60D) and the cylinder inner rotor blade group (60C) in reverse rotation. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ1以上で噴射真空中重力加速度加速円筒外側動翼群(60D)円筒内側動翼群(60C)に噴射夫々を二重反転駆動する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + gravity acceleration acceleration during vacuum increase Mach 1 or higher injection Gravity acceleration acceleration cylinder outside vacuum Various energy storage cycle coalescing engines and coalescence methods for driving each of the injections into the rotor blade group (60D) and the cylinder inner rotor blade group (60C) in reverse rotation. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ10以下で加速真空中重力加速度加速円筒外側動翼群(60D)円筒内側動翼群(60C)に噴射夫々を二重反転駆動する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + Gravity acceleration acceleration under vacuum rises below Mach 10 Acceleration in vacuum gravity acceleration cylinder outside vacuum Various energy storage cycle coalescing engines and coalescence methods for driving each of the injections into the rotor blade group (60D) and the cylinder inner rotor blade group (60C) in reverse rotation. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速で噴射真空中重力加速度加速円筒外側動翼群(60D)円筒内側動翼群(60C)に噴射夫々を二重反転駆動して発電する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + Reverse osmosis water (52D) injection speed + Gravity acceleration acceleration during vacuum increase Gravity acceleration acceleration cylinder outer rotor blade group in vacuum (60D) Various energy storage cycle coalescence engine and coalescence method for generating electric power by driving each of the injections into the cylinder inner rotor blade group (60C) in reverse rotation. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ3以上で噴射真空中重力加速度加速円筒外側動翼群(60D)円筒内側動翼群(60C)に噴射夫々を二重反転駆動して発電する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + Gravity acceleration acceleration during increasing vacuum degree Mach 3 or more injection Gravity acceleration acceleration cylinder outside vacuum Various energy storage cycle coalescence engine and coalescence method for generating electric power by driving each of the injections into the rotor blade group (60D) and the cylindrical inner blade group (60C) in a reverse rotation. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ30以下で加速真空中重力加速度加速円筒外側動翼群(60D)円筒内側動翼群(60C)に噴射夫々を二重反転駆動して発電する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + Gravity acceleration acceleration under vacuum rises below Mach 30 Acceleration in vacuum gravity acceleration cylinder outside vacuum Various energy storage cycle coalescence engine and coalescence method for generating electric power by driving each of the injections into the rotor blade group (60D) and the cylindrical inner blade group (60C) in a reverse rotation. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ1以上で噴射真空中重力加速度加速円筒外側動翼群(60D)円筒内側動翼群(60C)に噴射夫々を二重反転駆動して発電する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + gravity acceleration acceleration during vacuum increase Mach 1 or higher injection Gravity acceleration acceleration cylinder outside vacuum Various energy storage cycle coalescence engine and coalescence method for generating electric power by driving each of the injections into the rotor blade group (60D) and the cylindrical inner blade group (60C) in a reverse rotation. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気管(5H)+逆浸透水管(52D)兼柱管(12B)で超臨界圧力水蒸気(5H)逆浸透水(52D)を最上部に上昇超臨界圧力水蒸気(5H)膨張速度+逆浸透水(52D)噴射速度+真空度上昇中の重力加速度加速マッハ10以下で加速真空中重力加速度加速円筒外側動翼群(60D)円筒内側動翼群(60C)に噴射夫々を二重反転駆動して発電する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical moving blade steam water gravity turbine (11Z) power generation supercritical pressure steam pipe (5H) + reverse osmosis water pipe (52D) and column pipe (12B) supercritical pressure steam (5H) Reverse osmosis water (52D) rises to the top Supercritical pressure water vapor (5H) expansion speed + reverse osmosis water (52D) injection speed + Gravity acceleration acceleration under vacuum rises below Mach 10 Acceleration in vacuum gravity acceleration cylinder outside vacuum Various energy storage cycle coalescence engine and coalescence method for generating electric power by driving each of the injections into the rotor blade group (60D) and the cylindrical inner blade group (60C) in a reverse rotation. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電外側軸装置(60B)兼円筒外側動翼群(60D)や内側軸装置(60A)兼円筒内側動翼群(60C)夫々の両端に軸受(12C)具備出力翼(53A)具備した各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical all blade steam water gravity turbine (11Z) power generation outer shaft device (60B) and cylindrical outer blade group (60D) and inner shaft device (60A) and cylinder inner blade group ( 60C) Various energy storage cycle coalescence engines and coalescence methods having bearings (12C) and output vanes (53A) at both ends. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電外側軸装置(60B)兼円筒外側動翼群(60D)や内側軸装置(60A)兼円筒内側動翼群(60C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工を可能にした各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical all blade steam water gravity turbine (11Z) power generation outer shaft device (60B) and cylindrical outer blade group (60D) and inner shaft device (60A) and cylinder inner blade group ( 60C) Bearings (12C) at both ends and output blades (53A), and various energy storage cycle coalescence engines and coalescence methods that enable both-end support processing with a temporary assembly machine tool. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電外側軸装置(60B)兼円筒外側動翼群(60D)や内側軸装置(60A)兼円筒内側動翼群(60C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整加工する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical all blade steam water gravity turbine (11Z) power generation outer shaft device (60B) and cylindrical outer blade group (60D) and inner shaft device (60A) and cylinder inner blade group ( 60C) Various energy storage cycle merging engines and merging methods in which bearings (12C) are provided at both ends and output blades (53A) are separately provided at both ends, and both ends are supported and ultra-high speed balance adjustment processing is performed by a temporary assembly machine tool. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電外側軸装置(60B)兼円筒外側動翼群(60D)や内側軸装置(60A)兼円筒内側動翼群(60C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工にする各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical all blade steam water gravity turbine (11Z) power generation outer shaft device (60B) and cylindrical outer blade group (60D) and inner shaft device (60A) and cylinder inner blade group ( 60C) Various energy storage cycle merging engines and merging methods in which bearings (12C) are provided at both ends and output blades (53A) are provided separately, and both ends are supported by ultra-high speed balance adjustment ultra-precision machining with a temporary assembly machine tool. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電外側軸装置(60B)兼円筒外側動翼群(60D)や内側軸装置(60A)兼円筒内側動翼群(60C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工後に本組立にする各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical all blade steam water gravity turbine (11Z) power generation outer shaft device (60B) and cylindrical outer blade group (60D) and inner shaft device (60A) and cylinder inner blade group ( 60C) Bearings (12C) provided at both ends, output blades (53A) provided separately, and each energy storage cycle merging engine and merging method which are separately assembled in a temporary assembly machine tool after both ends are supported and ultra-high-speed balance adjustment is performed after ultra-precision machining. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備した各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generating counter-rotating engine (12G) reverse osmosis water (52D) cooling outer shaft device (60B) and outer compression blade (53C) ) And the inner shaft device (60A) and the inner compression blade (53C), the energy storage cycle coalescence engine and the coalescence method provided with bearings (12C) and output blades (53A) at both ends. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工を可能にした各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generating counter-rotating engine (12G) reverse osmosis water (52D) cooling outer shaft device (60B) and outer compression blade (53C) ) And inner shaft device (60A) / inner compression blade (53C), bearings (12C) at both ends, output blades (53A) at each end, and each energy storage cycle coalescence that can be supported at both ends with a temporary assembly machine tool Organization and coalescence method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整加工する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generating counter-rotating engine (12G) reverse osmosis water (52D) cooling outer shaft device (60B) and outer compression blade (53C) ) And inner shaft device (60A) and inner compression blade (53C), bearings (12C) and output blades (53A) at both ends, respectively, and support for both ends with temporary assembly machine tools. Cycle coalescence engine and coalescence method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工にする各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generating counter-rotating engine (12G) reverse osmosis water (52D) cooling outer shaft device (60B) and outer compression blade (53C) ) And inner shaft device (60A) and inner compression blade (53C) at both ends, bearing (12C), output blade (53A), respectively, and temporary assembly machine tool, both ends support processing ultra high speed balance adjustment ultra precision processing Various energy storage cycle coalescence engines and coalescence methods. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工後に本組立にする各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generating counter-rotating engine (12G) reverse osmosis water (52D) cooling outer shaft device (60B) and outer compression blade (53C) ) And inner shaft device (60A) / inner compression blade (53C) bearings (12C) at both ends, output blades (53A) at both ends separately, both ends supported by ultra-high speed balance adjustment after ultra-precision machining Various energy storage cycle coalescence engines and coalescence methods to be assembled. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備した各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generating counter-rotating engine (12G) reverse osmosis water (52D) cooling outer shaft device (60B) and outer output blade (53A ) And the inner shaft device (60A) and the inner output blade (53A), the various energy storage cycle coalescence engines and the coalescence method provided with bearings (12C) and output blades (53A) at both ends. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工を可能にした各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generating counter-rotating engine (12G) reverse osmosis water (52D) cooling outer shaft device (60B) and outer output blade (53A ) And inner shaft device (60A) / inner output blade (53A), bearings (12C) on both ends, output blade (53A) on each end, and each energy storage cycle coalescence that can be supported on both ends with a temporary assembly machine tool Organization and coalescence method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整加工する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generating counter-rotating engine (12G) reverse osmosis water (52D) cooling outer shaft device (60B) and outer output blade (53A ) And inner shaft device (60A) / inner output blade (53A), bearings (12C) at both ends, output blade (53A) at each end, and support for both ends with temporary assembly machine tools. Cycle coalescence engine and coalescence method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工にする各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generating counter-rotating engine (12G) reverse osmosis water (52D) cooling outer shaft device (60B) and outer output blade (53A ) And inner shaft device (60A) / inner output blade (53A), bearings (12C) at both ends, output blade (53A) at each end separately, both ends supported by ultra-high-speed balance adjustment with ultra-precise machining Various energy storage cycle coalescence engines and coalescence methods. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工後に本組立にする各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generating counter-rotating engine (12G) reverse osmosis water (52D) cooling outer shaft device (60B) and outer output blade (53A ) And inner shaft device (60A) / inner output blade (53A), bearings (12C) on both ends, output blade (53A) on both ends, respectively, and temporarily supported on both ends by ultra-high-speed balance adjustment Various energy storage cycle coalescence engines and coalescence methods to be assembled. 各種連結駆動する2段圧縮機(12N)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備した二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電(11A)発電電気製造物駆動を含有した各種エネルギ保存サイクル合体機関及び合体方法。   Both ends of the outer shaft device (60B) / outer compression blade (53C) and inner shaft device (60A) / inner compression blade (53C) cooled by variously connected and driven two-stage compressor (12N) reverse osmosis water (52D) Combined with various reversible energy storage cycles, including bearing (12C), output blade (53A), counter-rotating engine (12G) + vertical-type full-blade steam water gravity turbine (11Z) power generation (11A) power generation electric product drive Organization and coalescence method. 各種連結駆動する2段圧縮機(12N)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工を可能にした二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電(11A)発電電気製造物駆動を含有した各種エネルギ保存サイクル合体機関及び合体方法。   Both ends of the outer shaft device (60B) / outer compression blade (53C) and inner shaft device (60A) / inner compression blade (53C) cooled by variously connected and driven two-stage compressor (12N) reverse osmosis water (52D) Bearing (12C) equipped with output blades (53A) each equipped with a counter rotating engine (12G) and vertical all blade steam water gravity turbine (11Z) power generation (11A) capable of supporting both ends with a temporary assembly machine tool. ) Various energy storage cycle coalescing engines and coalescence methods that contain power generation product drives. 各種連結駆動する2段圧縮機(12N)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整加工して、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   Both ends of the outer shaft device (60B) / outer compression blade (53C) and inner shaft device (60A) / inner compression blade (53C) cooled by variously connected and driven two-stage compressor (12N) reverse osmosis water (52D) Bearings (12C), output blades (53A), and various energy storage cycles in which a vertical-type full-blade steam-water gravity turbine (11Z) power generation is performed by using a temporary assembly machine tool to support both ends with an ultra-high speed balance. Merger engine and merger method. 各種連結駆動する2段圧縮機(12N)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工にして、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   Both ends of the outer shaft device (60B) / outer compression blade (53C) and inner shaft device (60A) / inner compression blade (53C) cooled by variously connected and driven two-stage compressor (12N) reverse osmosis water (52D) The bearings (12C), the output blades (53A), and the various energy used for the vertical-type full-blade steam water gravity turbine (11Z) power generation by using a temporary assembly machine tool and supporting both ends with ultra-high speed balance adjustment and ultra-precision machining. Storage cycle coalescence engine and coalescence method. 各種連結駆動する2段圧縮機(12N)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工後に本組立にして、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   Both ends of the outer shaft device (60B) / outer compression blade (53C) and inner shaft device (60A) / inner compression blade (53C) cooled by variously connected and driven two-stage compressor (12N) reverse osmosis water (52D) The bearing (12C) and the output blade (53A) are separately assembled with a temporary assembly machine tool. Both ends are supported. Ultra-high-speed balance adjustment. Various energy storage cycle coalescence engines and coalescence methods. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却翼とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備した各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generating counter-rotating engine (12G) reverse osmosis water (52D) outer shaft device (60B) and outer compressor blade ( 53C) and the inner shaft device (60A) and the inner compression blade (53C), various energy storage cycle coalescence engines and coalescence methods having bearings (12C) and output vanes (53A) at both ends. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却翼とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工を可能にした各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generating counter-rotating engine (12G) reverse osmosis water (52D) outer shaft device (60B) and outer compressor blade ( 53C), inner shaft device (60A) and inner compression blade (53C), bearings (12C) at both ends, output blades (53A), and various energy storage cycles that enable both-end support processing with a temporary assembly machine tool. Merger engine and merger method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却翼とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整加工する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generating counter-rotating engine (12G) reverse osmosis water (52D) outer shaft device (60B) and outer compressor blade ( 53C), inner shaft device (60A) and inner compression blade (53C), bearings (12C) at both ends, output blades (53A) at both ends, and support for both ends with temporary assembly machine tools. Storage cycle coalescence engine and coalescence method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却翼とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工にする各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generating counter-rotating engine (12G) reverse osmosis water (52D) outer shaft device (60B) and outer compressor blade ( 53C) and inner shaft device (60A) / inner compression blade (53C) bearings (12C) at both ends and output blades (53A) at both ends are separately supported on both ends with a temporary assembly machine tool for ultra-high-speed balance adjustment for ultra-precision machining Various energy storage cycle coalescence engine and coalescence method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却翼とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工後に本組立にする各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generating counter-rotating engine (12G) reverse osmosis water (52D) outer shaft device (60B) and outer compressor blade ( 53C) and inner shaft device (60A) / inner compression blade (53C) bearings (12C) at both ends, output blades (53A) at both ends, and separately supported by temporary assembly machine tools after ultra-high speed balance adjustment after ultra-precision machining Various energy storage cycle coalescence engines and coalescence methods to be assembled. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却翼とした外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備した各種エネルギ保存サイクル合体機関及び合体方法。   Countershaft engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generation counterrotating engine (12G) reverse osmosis water (52D) outer shaft device (60B) and outer output blade ( 53A) and the inner shaft device (60A) and the inner output blade (53A), the various energy storage cycle coalescence engines and the coalescence method provided with the bearing (12C) and the output blade (53A) at both ends. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却翼とした外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工を可能にした各種エネルギ保存サイクル合体機関及び合体方法。   Countershaft engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generation counterrotating engine (12G) reverse osmosis water (52D) outer shaft device (60B) and outer output blade ( 53A) and inner shaft device (60A) / inner output blade (53A) bearings (12C) and output blades (53A) at both ends of each, various energy storage cycles that can be supported at both ends with a temporary assembly machine tool. Merger engine and merger method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却翼とした外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整加工する各種エネルギ保存サイクル合体機関及び合体方法。   Countershaft engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generation counterrotating engine (12G) reverse osmosis water (52D) outer shaft device (60B) and outer output blade ( 53A) and inner shaft device (60A) / inner output wing (53A) bearings (12C) at both ends and output wing (53A) at each end separately, supporting both ends with temporary assembly machine tools Various energy for ultra-high speed balance adjustment processing Storage cycle coalescence engine and coalescence method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却翼とした外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工にする各種エネルギ保存サイクル合体機関及び合体方法。   Countershaft engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generation counterrotating engine (12G) reverse osmosis water (52D) outer shaft device (60B) and outer output blade ( 53A), inner shaft device (60A) and inner output blade (53A), bearings (12C) at both ends, output blades (53A) at both ends, and support for both ends with temporary assembly machine tools. Various energy storage cycle coalescence engine and coalescence method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電の二重反転機関(12G)逆浸透水(52D)冷却翼とした外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工後に本組立にする各種エネルギ保存サイクル合体機関及び合体方法。   Countershaft engine (12G) + vertical rotor blade steam water gravity turbine (11Z) power generation counterrotating engine (12G) reverse osmosis water (52D) outer shaft device (60B) and outer output blade ( 53A) and inner shaft device (60A) / inner output wing (53A) bearings (12C) at both ends, output wings (53A) at both ends, respectively, with temporary assembly machine tools, both ends supported by ultra-high-speed balance adjustment after ultra-precision machining Various energy storage cycle coalescence engines and coalescence methods to be assembled. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)空気冷却翼とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備した各種エネルギ保存サイクル合体機関及び合体方法。   Countershaft engine (12G) + vertical-type full-blade steam water gravity turbine (11Z) supercritical pressure steam (5H) manufactured counter-rotating engine (12G) reverse osmosis water (52D) air cooling blade outer shaft device (60B) Various energy storage cycle coalescence engines and coalescence methods including bearings (12C) and output vanes (53A) at both ends of the outer compression blade (53C) and the inner shaft device (60A) and inner compression blade (53C). 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)空気冷却翼とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工を可能にした各種エネルギ保存サイクル合体機関及び合体方法。   Countershaft engine (12G) + vertical-type full-blade steam water gravity turbine (11Z) supercritical pressure steam (5H) manufactured counter-rotating engine (12G) reverse osmosis water (52D) air cooling blade outer shaft device (60B) Both outer compression blades (53C) and inner shaft device (60A) and inner compression blades (53C) have bearings (12C) at both ends and output blades (53A). Various energy storage cycle coalescence engines and coalescence methods that make possible. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)空気冷却翼とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整加工する各種エネルギ保存サイクル合体機関及び合体方法。   Countershaft engine (12G) + vertical-type full-blade steam water gravity turbine (11Z) supercritical pressure steam (5H) manufactured counter-rotating engine (12G) reverse osmosis water (52D) air cooling blade outer shaft device (60B) Both outer compression blades (53C) and inner shaft device (60A) and inner compression blades (53C) have bearings (12C) at both ends and output blades (53A). Various energy storage cycle coalescence engine and coalescence method for ultra-high-speed balance adjustment processing. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)空気冷却翼とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工にする各種エネルギ保存サイクル合体機関及び合体方法。   Countershaft engine (12G) + vertical-type full-blade steam water gravity turbine (11Z) supercritical pressure steam (5H) manufactured counter-rotating engine (12G) reverse osmosis water (52D) air cooling blade outer shaft device (60B) Both outer compression blades (53C) and inner shaft device (60A) and inner compression blades (53C) have bearings (12C) at both ends and output blades (53A). Various energy storage cycle coalescence engine and coalescence method for ultra-high-speed balance adjustment and ultra-precision machining. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)空気冷却翼とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工後に本組立にする各種エネルギ保存サイクル合体機関及び合体方法。   Countershaft engine (12G) + vertical-type full-blade steam water gravity turbine (11Z) supercritical pressure steam (5H) manufactured counter-rotating engine (12G) reverse osmosis water (52D) air cooling blade outer shaft device (60B) Both outer compression blades (53C) and inner shaft device (60A) and inner compression blades (53C) have bearings (12C) at both ends and output blades (53A). Various energy storage cycle coalescence engine and coalescence method to be assembled after ultra-high-speed balance adjustment ultra-precision machining. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)空気冷却翼とした外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備した各種エネルギ保存サイクル合体機関及び合体方法。   Countershaft engine (12G) + vertical-type full-blade steam water gravity turbine (11Z) supercritical pressure steam (5H) manufactured counter-rotating engine (12G) reverse osmosis water (52D) air cooling blade outer shaft device (60B) Various energy conservation cycle coalescence engines and coalescence methods including bearings (12C) and output vanes (53A) on both ends of the outer output blade (53A) and the inner shaft device (60A) and inner output blade (53A). 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)空気冷却翼とした外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工を可能にした各種エネルギ保存サイクル合体機関及び合体方法。   Countershaft engine (12G) + vertical-type full-blade steam water gravity turbine (11Z) supercritical pressure steam (5H) manufactured counter-rotating engine (12G) reverse osmosis water (52D) air cooling blade outer shaft device (60B) Both the outer output wing (53A) and the inner shaft device (60A) and the inner output wing (53A) have bearings (12C) at both ends, and the output wing (53A) is separately supported at both ends by a temporary assembly machine tool. Various energy storage cycle coalescence engines and coalescence methods that make possible. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)空気冷却翼とした外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整加工する各種エネルギ保存サイクル合体機関及び合体方法。   Countershaft engine (12G) + vertical-type full-blade steam water gravity turbine (11Z) supercritical pressure steam (5H) manufactured counter-rotating engine (12G) reverse osmosis water (52D) air cooling blade outer shaft device (60B) Both the outer output wing (53A) and the inner shaft device (60A) and the inner output wing (53A) have bearings (12C) at both ends, and the output wing (53A) is separately supported at both ends by a temporary assembly machine tool. Various energy storage cycle coalescence engine and coalescence method for ultra-high-speed balance adjustment processing. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)空気冷却翼とした外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工にする各種エネルギ保存サイクル合体機関及び合体方法。   Countershaft engine (12G) + vertical-type full-blade steam water gravity turbine (11Z) supercritical pressure steam (5H) manufactured counter-rotating engine (12G) reverse osmosis water (52D) air cooling blade outer shaft device (60B) Both the outer output wing (53A) and the inner shaft device (60A) and the inner output wing (53A) have bearings (12C) at both ends, and the output wing (53A) is separately supported at both ends by a temporary assembly machine tool. Various energy storage cycle coalescence engine and coalescence method for ultra-high-speed balance adjustment and ultra-precision machining. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)空気冷却翼とした外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工後に本組立にする各種エネルギ保存サイクル合体機関及び合体方法。   Countershaft engine (12G) + vertical-type full-blade steam water gravity turbine (11Z) supercritical pressure steam (5H) manufactured counter-rotating engine (12G) reverse osmosis water (52D) air cooling blade outer shaft device (60B) Both the outer output wing (53A) and the inner shaft device (60A) and the inner output wing (53A) have bearings (12C) at both ends, and the output wing (53A) is separately supported at both ends by a temporary assembly machine tool. Various energy storage cycle coalescence engine and coalescence method to be assembled after ultra-high-speed balance adjustment ultra-precision machining. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備した各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical-type full-blade steam water gravity turbine (11Z) power generation supercritical pressure steam (5H) manufacturing counter rotating engine (12G) reverse osmosis water (52D) cooling outer shaft device (52D) 60B) Various energy storage cycle coalescence engines and coalescence methods including bearings (12C) and output vanes (53A) at both ends of the outer compression blade (53C) and the inner shaft device (60A) and inner compression blade (53C). 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工を可能にした各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical-type full-blade steam water gravity turbine (11Z) power generation supercritical pressure steam (5H) manufacturing counter rotating engine (12G) reverse osmosis water (52D) cooling outer shaft device (52D) 60B) Both outer compression blades (53C) and inner shaft device (60A) and inner compression blades (53C) have bearings (12C) on both ends and output blades (53A). Various energy storage cycle coalescence engines and coalescence methods made possible. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整加工する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical-type full-blade steam water gravity turbine (11Z) power generation supercritical pressure steam (5H) manufacturing counter rotating engine (12G) reverse osmosis water (52D) cooling outer shaft device (52D) 60B) Both outer compression blades (53C) and inner shaft device (60A) and inner compression blades (53C) have bearings (12C) on both ends and output blades (53A). Various energy storage cycle coalescence engine and coalescence method for high-speed balance adjustment processing. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工にする各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical-type full-blade steam water gravity turbine (11Z) power generation supercritical pressure steam (5H) manufacturing counter rotating engine (12G) reverse osmosis water (52D) cooling outer shaft device (52D) 60B) Both outer compression blades (53C) and inner shaft device (60A) and inner compression blades (53C) have bearings (12C) on both ends and output blades (53A). Various energy storage cycle coalescence engine and coalescence method for high-speed balance adjustment and ultra-precision machining. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)冷却とした外側軸装置(60B)兼外側圧縮翼(53C)や内側軸装置(60A)兼内側圧縮翼(53C)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工後に本組立にする各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical-type full-blade steam water gravity turbine (11Z) power generation supercritical pressure steam (5H) manufacturing counter rotating engine (12G) reverse osmosis water (52D) cooling outer shaft device (52D) 60B) Both outer compression blades (53C) and inner shaft device (60A) and inner compression blades (53C) have bearings (12C) on both ends and output blades (53A). Various energy storage cycle coalescence engine and coalescence method to be assembled after high-speed balance adjustment ultra-precision machining. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)冷却とした圧縮翼の外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備した各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotating blade steam water gravity turbine (11Z) Power generation supercritical pressure steam (5H) manufacturing counter-rotating engine (12G) reverse osmosis water (52D) cooling outer blade Various energy storage cycle coalescing engines and coalescings having bearings (12C) and output vanes (53A) at both ends of the shaft device (60B) / outer output blade (53A) and inner shaft device (60A) / inner output blade (53A) Method. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)冷却とした圧縮翼の外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工を可能にした各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotating blade steam water gravity turbine (11Z) Power generation supercritical pressure steam (5H) manufacturing counter-rotating engine (12G) reverse osmosis water (52D) cooling outer blade The shaft device (60B) / outer output blade (53A) and the inner shaft device (60A) / inner output blade (53A) have bearings (12C) at both ends of the shaft device (60A) and inner output blade (53A). Various energy storage cycle coalescence engines and coalescence methods that enable support processing. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)冷却とした圧縮翼の外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整加工する各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotating blade steam water gravity turbine (11Z) Power generation supercritical pressure steam (5H) manufacturing counter-rotating engine (12G) reverse osmosis water (52D) cooling outer blade The shaft device (60B) / outer output blade (53A) and the inner shaft device (60A) / inner output blade (53A) have bearings (12C) at both ends of the shaft device (60A) and inner output blade (53A). Various energy storage cycle coalescence engine and coalescence method for super-high-speed balance adjustment processing. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)冷却とした圧縮翼の外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工にする各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotating blade steam water gravity turbine (11Z) Power generation supercritical pressure steam (5H) manufacturing counter-rotating engine (12G) reverse osmosis water (52D) cooling outer blade The shaft device (60B) / outer output blade (53A) and the inner shaft device (60A) / inner output blade (53A) have bearings (12C) at both ends of the shaft device (60A) and inner output blade (53A). Various energy storage cycle coalescence engine and coalescence method for super-precision machining with super-high-speed balance adjustment. 二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電超臨界圧力水蒸気(5H)製造の二重反転機関(12G)逆浸透水(52D)冷却とした圧縮翼の外側軸装置(60B)兼外側出力翼(53A)や内側軸装置(60A)兼内側出力翼(53A)夫々の両端に軸受(12C)具備出力翼(53A)具備夫々別々に仮組立工作機械で両端支持加工超高速バランス調整超精密加工後に本組立にする各種エネルギ保存サイクル合体機関及び合体方法。   Counter-rotating engine (12G) + vertical rotating blade steam water gravity turbine (11Z) Power generation supercritical pressure steam (5H) manufacturing counter-rotating engine (12G) reverse osmosis water (52D) cooling outer blade The shaft device (60B) / outer output blade (53A) and the inner shaft device (60A) / inner output blade (53A) have bearings (12C) at both ends of the shaft device (60A) and inner output blade (53A). Supporting process Ultra-high-speed balance adjustment Various energy storage cycle coalescence engine and coalescence method to be assembled after ultra-precision machining. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの20倍以上として回転出力を既存ガスタービンの20倍以上にして、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy storage cycle coalescence engines and coalescence methods that have a vertical power blade steam water gravity turbine (11Z) power generation with a rotational output 20 times or more that of a boiler and at least 20 times that of an existing gas turbine. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの40倍以上として回転出力を既存ガスタービンの40倍以上にして、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy storage cycle coalescence engines and coalescence methods that are 40 times more than boilers and have 40 times more rotational output than existing gas turbines to produce a vertical all blade steam water gravity turbine (11Z) power generation. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの8倍以上として回転出力を既存ガスタービンの16倍以上にして、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy conservation cycle coalescing engines and coalescence methods that make the vertical power turbine steam water gravity turbine (11Z) power generation by making the rotational output more than 16 times that of the existing gas turbine, more than 8 times that of the boiler. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの40倍以上として回転出力を既存ガスタービンの80倍以上にして、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy storage cycle coalescence engines and coalescence methods that are 40 times more than boilers and have a rotary output more than 80 times that of existing gas turbines to produce a vertical all blade steam water gravity turbine (11Z) power generation. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの8倍以上として回転出力を既存ガスタービンの16倍以上にして、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy conservation cycle coalescing engines and coalescence methods that make the vertical power turbine steam water gravity turbine (11Z) power generation by making the rotational output more than 16 times that of the existing gas turbine, more than 8 times that of the boiler. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの2倍以上として既存火力発電の4倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy conservation cycle coalescence engines and coalescence methods that are vertical type full-blade steam water gravity turbine (11Z) power generation, which is more than twice as much as boilers and more than four times the power generation of existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの3倍以上として既存火力発電の6倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy conservation cycle coalescence engines and coalescence methods that are vertical type moving blade steam-water gravity turbine (11Z) power generation, which is more than three times the boiler power generation amount more than six times that of existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの4倍以上として既存火力発電の8倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy conservation cycle coalescence engines and coalescence methods that are vertical type moving blade steam-water gravity turbine (11Z) power generation, which is more than four times the boiler power generation amount more than eight times that of existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの5倍以上として既存火力発電の10倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy conservation cycle coalescence engines and coalescence methods that are vertical type moving blade steam-water gravity turbine (11Z) power generation, which is more than five times the boiler power generation amount more than ten times that of existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの6倍以上として既存火力発電の12倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy conservation cycle coalescence engines and coalescence methods that are vertical full-rotor-steam steam-gravity turbine (11Z) power generation, which is more than 6 times that of boilers and 12 times more power generation than existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの8倍以上として既存火力発電の16倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy storage cycle coalescence engines and coalescence methods, which are vertical all-rotor-steam steam-gravity turbine (11Z) power generation, which is 8 times more than boilers and 16 times more power generation than existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの9倍以上として既存火力発電の18倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy conservation cycle coalescence engines and coalescence methods that are vertical all-rotor-steam water-gravity turbine (11Z) power generation that is 9 times more than boilers and 18 times more electricity generation than existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの10倍以上として既存火力発電の20倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy storage cycle coalescence engines and coalescence methods, which are vertical all-rotor steam-water gravity turbine (11Z) power generation, which is more than 10 times the boiler and 20 times more power generation than existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの11倍以上として既存火力発電の22倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy conservation cycle coalescence engines and coalescence methods that are vertical full-rotor-steam water-gravity turbine (11Z) power generation, which is 11 times more than boilers and 22 times more electricity generation than existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの12倍以上として既存火力発電の24倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy conservation cycle coalescence engines and coalescence methods that are vertical type moving blade steam water gravity turbine (11Z) power generation, which is 12 times more than boilers and 24 times more electricity generation than existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの13倍以上として既存火力発電の26倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy storage cycle coalescence engines and coalescence methods, which are vertical full-rotor steam-water gravity turbine (11Z) power generation, which is 13 times more than boilers and 26 times more electricity generation than existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの14倍以上として既存火力発電の28倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy conservation cycle coalescence engines and coalescence methods that are vertical all-rotor-steam water gravity turbine (11Z) power generation, which is 14 times more than boilers and 28 times more power generation than existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの16倍以上として既存火力発電の32倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy storage cycle coalescence engines and coalescence methods, which are vertical full-rotor steam-water gravity turbine (11Z) power generation, which is more than 16 times the boiler power generation amount more than 32 times that of existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの18倍以上として既存火力発電の36倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy storage cycle coalescence engines and coalescence methods that are vertical full-rotor-steam water gravity turbine (11Z) power generation, which is 18 times more than boilers and 36 times more electricity generation than existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの20倍以上として既存火力発電の40倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy conservation cycle coalescence engines and coalescence methods that are vertical full-rotor steam-water gravity turbine (11Z) power generation, which is more than 20 times the boiler power generation amount 40 times that of existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの22倍以上として既存火力発電の44倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy conservation cycle coalescence engines and coalescence methods, which are vertical all-rotor-steam water gravity turbine (11Z) power generation, which is 22 times more than boilers and 44 times more power generation than existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの24倍以上として既存火力発電の48倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy storage cycle coalescence engines and coalescence methods that are vertical type moving blade steam-water gravity turbine (11Z) power generation, which is 24 times more than boilers and 48 times more power generation than existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした二重反転機関(12G)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの26倍以上として既存火力発電の52倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A double reversing engine (12G), which completely abolishes existing stationary blades and is a double reversing blade, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel quantity. Various energy storage cycle coalescence engines and coalescence methods, which are vertical full-rotor-steam water-gravity turbine (11Z) power generation that is more than 26 times the boiler and 52 times the amount of power generation of existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした簡単噴射機関(89E)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの28倍以上として既存火力発電の56倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   Equipped with a simple injection engine (89E) that completely abolishes existing stationary blades and double-rotating blades, and is equipped with a compressed air heat exchanger (2Y) to produce supercritical pressure steam (5H) with the same fuel amount. Existing boiler Various energy storage cycle coalescence engines and coalescence methods that are vertical type moving blade steam-water gravity turbine (11Z) power generation that is more than 28 times the power generation amount of the existing thermal power generation and more than 56 times. 既存の静翼を全廃して全動翼二重反転とした簡単噴射機関(89E)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの30倍以上として既存火力発電の60倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   Equipped with a simple injection engine (89E) that completely abolishes existing stationary blades and double-rotating blades, and is equipped with a compressed air heat exchanger (2Y) to produce supercritical pressure steam (5H) with the same fuel amount. Existing boiler Various energy storage cycle coalescence engines and coalescence methods that are vertical type moving blade steam-water gravity turbine (11Z) power generation that is 30 times more than the existing thermal power generation and more than 60 times the amount of the existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした簡単噴射機関(89E)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの32倍以上として既存火力発電の64倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   Equipped with a simple injection engine (89E) that completely abolishes existing stationary blades and double-rotating blades, and is equipped with a compressed air heat exchanger (2Y) to produce supercritical pressure steam (5H) with the same fuel amount. Existing boiler Various energy storage cycle coalescence engines and coalescence methods that are vertical type moving blade steam-water gravity turbine (11Z) power generation, which is 32 times or more of the existing thermal power generation and more than 64 times the amount of power generation. 既存の静翼を全廃して全動翼二重反転とした簡単噴射機関(89E)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの34倍以上として既存火力発電の68倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   Equipped with a simple injection engine (89E) that completely abolishes existing stationary blades and double-rotating blades, and is equipped with a compressed air heat exchanger (2Y) to produce supercritical pressure steam (5H) with the same fuel amount. Existing boiler Various energy storage cycle coalescence engines and coalescence methods that are vertical full-rotor-steam water gravity turbine (11Z) power generation with a power generation amount of 34 times or more of existing thermal power generation and more than 34 times. 既存の静翼を全廃して全動翼二重反転とした簡単噴射機関(89E)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの36倍以上として既存火力発電の72倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   Equipped with a simple injection engine (89E) that completely abolishes existing stationary blades and double-rotating blades, and is equipped with a compressed air heat exchanger (2Y) to produce supercritical pressure steam (5H) with the same fuel amount. Existing boiler Various energy storage cycle coalescence engines and coalescence methods, which are vertical all-rotor-steam water gravity turbine (11Z) power generation, which is more than 36 times as large as that of existing thermal power generation and at least 72 times the amount of power generation. 既存の静翼を全廃して全動翼二重反転とした簡単噴射機関(89E)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの38倍以上として既存火力発電の76倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   Equipped with a simple injection engine (89E) that completely abolishes existing stationary blades and double-rotating blades, and is equipped with a compressed air heat exchanger (2Y) to produce supercritical pressure steam (5H) with the same fuel amount. Existing boiler Various energy storage cycle coalescence engines and coalescence methods that are vertical type moving blade steam-water gravity turbine (11Z) power generation with a power generation amount of at least 38 times that of existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした簡単噴射機関(89E)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの40倍以上として既存火力発電の80倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   Equipped with a simple injection engine (89E) that completely abolishes existing stationary blades and double-rotating blades, and is equipped with a compressed air heat exchanger (2Y) to produce supercritical pressure steam (5H) with the same fuel amount. Existing boiler Various energy storage cycle coalescence engines and coalescence methods that are vertical type moving blade steam-water gravity turbine (11Z) power generation, which is 40 times or more of the existing thermal power generation and 40 times more than the existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした簡単噴射機関(89E)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの42倍以上として既存火力発電の84倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   Equipped with a simple injection engine (89E) that completely abolishes existing stationary blades and double-rotating blades, and is equipped with a compressed air heat exchanger (2Y) to produce supercritical pressure steam (5H) with the same fuel amount. Existing boiler Various energy storage cycle coalescence engines and coalescence methods that are vertical type moving blade steam-water gravity turbine (11Z) power generation that is more than 42 times as large as that of existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした簡単噴射機関(89E)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの44倍以上として既存火力発電の88倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   Equipped with a simple injection engine (89E) that completely abolishes existing stationary blades and double-rotating blades, and is equipped with a compressed air heat exchanger (2Y) to produce supercritical pressure steam (5H) with the same fuel amount. Existing boiler Various energy storage cycle coalescence engines and coalescence methods that are vertical type moving blade steam water gravity turbine (11Z) power generation, which is 44 times more than the existing thermal power generation and more than 88 times the amount of 既存の静翼を全廃して全動翼二重反転とした簡単噴射機関(89E)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの46倍以上として既存火力発電の92倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   Equipped with a simple injection engine (89E) that completely abolishes existing stationary blades and double-rotating blades, and is equipped with a compressed air heat exchanger (2Y) to produce supercritical pressure steam (5H) with the same fuel amount. Existing boiler Various energy storage cycle coalescence engines and coalescence methods that are vertical type moving blade steam-water gravity turbine (11Z) power generation, which is 46 times more than the existing thermal power generation and more than 92 times the power generation. 既存の静翼を全廃して全動翼二重反転とした簡単噴射機関(89E)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの48倍以上として既存火力発電の96倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   Equipped with a simple injection engine (89E) that completely abolishes existing stationary blades and double-rotating blades, and is equipped with a compressed air heat exchanger (2Y) to produce supercritical pressure steam (5H) with the same fuel amount. Existing boiler The energy storage cycle coalescence engine and the coalescence method of the vertical type moving blade steam water gravity turbine (11Z) power generation that is more than 96 times that of the existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした簡単噴射機関(89E)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの50倍以上として既存火力発電の100倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   Equipped with a simple injection engine (89E) that completely abolishes existing stationary blades and double-rotating blades, and is equipped with a compressed air heat exchanger (2Y) to produce supercritical pressure steam (5H) with the same fuel amount. Existing boiler Various energy storage cycle coalescence engines and coalescence methods that are vertical type moving blade steam-water gravity turbine (11Z) power generation that is more than 50 times the power generation amount of existing thermal power generation, which is 50 times or more. 既存の静翼を全廃して全動翼二重反転とした簡単空気噴射機関(89D)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの52倍以上として既存火力発電の104倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A simple air injection engine (89D), which completely abolishes existing stator blades and has double rotating blades, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel amount. Various energy storage cycle coalescence engines and coalescence methods, which are vertical all-rotor-steam water-gravity turbine (11Z) power generation that produces 52 times more power than boilers and 104 times more power generation than existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした簡単空気噴射機関(89D)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの54倍以上として既存火力発電の108倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A simple air injection engine (89D), which completely abolishes existing stator blades and has double rotating blades, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel amount. Various energy storage cycle coalescence engines and coalescence methods, which are vertical full-rotor-steam steam-gravity turbine (11Z) power generation that is 54 times more than boilers and 108 times more power generation than existing thermal power generation. 既存の静翼を全廃して全動翼二重反転とした簡単空気噴射機関(89D)に圧縮空気熱交換器(2Y)を具備して超臨界圧力水蒸気(5H)製造量を同一燃料量既存ボイラーの56倍以上として既存火力発電の112倍以上発電量の、竪型全動翼蒸気水重力タービン(11Z)発電とした各種エネルギ保存サイクル合体機関及び合体方法。   A simple air injection engine (89D), which completely abolishes existing stator blades and has double rotating blades, is equipped with a compressed air heat exchanger (2Y) and produces supercritical pressure steam (5H) with the same fuel amount. Various energy storage cycle coalescence engines and coalescence methods, which are vertical full-rotor-steam steam-gravity turbine (11Z) power generation that produces 56 times more power than boilers and 112 times more power generation than existing thermal power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Supercritical pressure water vapor (5H) produced by a counter-rotating engine (12G) that sucks and compresses air (28a) heated at a high temperature in a solar heater (21) by reverse osmosis water (52D) and cooled by a compressor blade double-inverted Various energy storage cycle coalescing engine and coalescence method for driving saddle-type full-blade steam water gravity turbine (11Z) power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比50にする二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Supercritical pressure for production of a counter-rotating engine (12G) having a suction blade compression / compression ratio of 50 by reverse osmosis water (52D) cooling of the air (28a) heated at a high temperature by a solar heater (21). Various energy storage cycle coalescence engine and coalescence method for steam (5H) driven vertical all blade steam water gravity turbine (11Z) power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比60にする二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Supercritical pressure for producing a counter-rotating engine (12G) having a suction blade compression / compression ratio of 60 by reverse osmosis water (52D) cooling of the air (28a) heated at a high temperature by a solar heater (21). Various energy storage cycle coalescence engine and coalescence method for steam (5H) driven vertical all blade steam water gravity turbine (11Z) power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比70にする二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Supercritical pressure for production of a counter-rotating engine (12G) having a suction blade compression / compression ratio of 70 by compression wing counter-rotating of air (28a) heated to high temperature by a solar heater (21) with reverse osmosis water (52D). Various energy storage cycle coalescence engine and coalescence method for steam (5H) driven vertical all blade steam water gravity turbine (11Z) power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比80にする二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Supercritical pressure for production of a counter-rotating engine (12G) with a suction blade compression / reversal ratio of 80 by reverse osmosis water (52D) cooling of air (28a) heated to high temperature by a solar heater (21) to 80 Various energy storage cycle coalescence engine and coalescence method for steam (5H) driven vertical all blade steam water gravity turbine (11Z) power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比90にする二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Supercritical pressure for production of a counter-rotating engine (12G) having a suction blade compression / compression ratio of 90 by compression blade double reversal of air (28a) heated by a solar heater (21) and cooled by reverse osmosis water (52D) Various energy storage cycle coalescence engine and coalescence method for steam (5H) driven vertical all blade steam water gravity turbine (11Z) power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比100にする二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Supercritical pressure for the production of a counter-rotating engine (12G) with a suction blade compression / reversal ratio of 100 by reverse osmosis water (52D) cooling of air (28a) heated at a high temperature by a solar heater (21) to 100. Various energy storage cycle coalescence engine and coalescence method for steam (5H) driven vertical all blade steam water gravity turbine (11Z) power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比50にして圧縮空気熱交換器(2Y)に噴射する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   The air (28a) heated to high temperature by the solar heater (21) is injected into the compressed air heat exchanger (2Y) with the suction cooling compression compression ratio of 50 by the reverse rotation of the compression blades cooled by reverse osmosis water (52D). Various reversible engine (12G) manufacturing supercritical pressure water vapor (5H) driven vertical all blade steam water gravity turbine (11Z) power generation various energy storage cycle coalescence engine and coalescence method. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比60にして圧縮空気熱交換器(2Y)に噴射する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   The air (28a) heated to high temperature by the solar heater (21) is injected into the compressed air heat exchanger (2Y) at a suction cooling compression compression ratio of 60 by reverse rotation of the compression blades cooled by reverse osmosis water (52D). Various reversible engine (12G) manufacturing supercritical pressure water vapor (5H) driven vertical all blade steam water gravity turbine (11Z) power generation various energy storage cycle coalescence engine and coalescence method. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比70にして圧縮空気熱交換器(2Y)に噴射する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   The air (28a) heated to high temperature by the solar heater (21) is injected into the compressed air heat exchanger (2Y) with the suction cooling compression compression ratio of 70 by the reverse rotation of the compression blades cooled by reverse osmosis water (52D). Various reversible engine (12G) manufacturing supercritical pressure water vapor (5H) driven vertical all blade steam water gravity turbine (11Z) power generation various energy storage cycle coalescence engine and coalescence method. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比80にして圧縮空気熱交換器(2Y)に噴射する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   The air (28a) heated to high temperature by the solar heater (21) is injected into the compressed air heat exchanger (2Y) at a suction cooling compression compression ratio of 80 by reverse rotation of the compression blades cooled by reverse osmosis water (52D). Various reversible engine (12G) manufacturing supercritical pressure water vapor (5H) driven vertical all blade steam water gravity turbine (11Z) power generation various energy storage cycle coalescence engine and coalescence method. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比90にして圧縮空気熱交換器(2Y)に噴射する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   The air (28a) heated to high temperature by the solar heater (21) is injected into the compressed air heat exchanger (2Y) at a suction cooling compression compression ratio of 90 by reverse rotation of the compression blades cooled by reverse osmosis water (52D). Various reversible engine (12G) manufacturing supercritical pressure water vapor (5H) driven vertical all blade steam water gravity turbine (11Z) power generation various energy storage cycle coalescence engine and coalescence method. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比100にして圧縮空気熱交換器(2Y)に噴射する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   The air (28a) heated to high temperature by the solar heater (21) is injected into the compressed air heat exchanger (2Y) at a suction cooling compression compression ratio of 100 by double reversal of the compression blades cooled by reverse osmosis water (52D). Various reversible engine (12G) manufacturing supercritical pressure water vapor (5H) driven vertical all blade steam water gravity turbine (11Z) power generation various energy storage cycle coalescence engine and coalescence method. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮し、圧縮比50にして圧縮空気熱交換器(2Y)に噴射する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   The air (28a) heated to high temperature by the solar heater (21) is suction cooled and compressed by the reverse rotation of the compression blades cooled by reverse osmosis water (52D), and the compression ratio is set to 50 to the compressed air heat exchanger (2Y). Various energy storage cycle coalescence engine and coalescence method for producing counter-rotating engine (12G) for injection, supercritical pressure steam (5H) driven vertical all blade steam water gravity turbine (11Z) power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮し、圧縮比60にして圧縮空気熱交換器(2Y)に噴射する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   The air (28a) heated to a high temperature by the solar heater (21) is suction cooled and compressed by the reverse rotation of the compression blades cooled by reverse osmosis water (52D), and the compression ratio is set to 60 to the compressed air heat exchanger (2Y). Various energy storage cycle coalescence engine and coalescence method for producing counter-rotating engine (12G) for injection, supercritical pressure steam (5H) driven vertical all blade steam water gravity turbine (11Z) power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮し、圧縮比70にして圧縮空気熱交換器(2Y)に噴射する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   The air (28a) heated to a high temperature by the solar heater (21) is suction cooled and compressed by the reverse rotation of the compression blades cooled by reverse osmosis water (52D), and the compression ratio is set to 70 to the compressed air heat exchanger (2Y). Various energy storage cycle coalescence engine and coalescence method for producing counter-rotating engine (12G) for injection, supercritical pressure steam (5H) driven vertical all blade steam water gravity turbine (11Z) power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮し、圧縮比80にして圧縮空気熱交換器(2Y)に噴射する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   The air (28a) heated to a high temperature by the solar heater (21) is suction cooled and compressed by the reverse rotation of the compression blades cooled by reverse osmosis water (52D), and the compression ratio is set to 80 to the compressed air heat exchanger (2Y). Various energy storage cycle coalescence engine and coalescence method for producing counter-rotating engine (12G) for injection, supercritical pressure steam (5H) driven vertical all blade steam water gravity turbine (11Z) power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮し、圧縮比90にして圧縮空気熱交換器(2Y)に噴射する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   The air (28a) heated to a high temperature by the solar heater (21) is suction cooled and compressed by the reverse rotation of the compression blades cooled by reverse osmosis water (52D), and the compression ratio is set to 90 to the compressed air heat exchanger (2Y). Various energy storage cycle coalescence engine and coalescence method for producing counter-rotating engine (12G) for injection, supercritical pressure steam (5H) driven vertical all blade steam water gravity turbine (11Z) power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮し、圧縮比100にして圧縮空気熱交換器(2Y)に噴射する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Air (28a) heated to high temperature in the solar heater (21) is suction cooled and compressed by the reverse rotation of the compression blades cooled by reverse osmosis water (52D), and the compression ratio is set to 100 to the compressed air heat exchanger (2Y). Various energy storage cycle coalescence engine and coalescence method for producing counter-rotating engine (12G) for injection, supercritical pressure steam (5H) driven vertical all blade steam water gravity turbine (11Z) power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比50にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Injected fuel to the compressed air heat exchanger (2Y) with the suction blade compression compression ratio 50 by double reversal of the compression blades, which is cooled by reverse osmosis water (52D) of the air (28a) heated to high temperature by the solar heater (21) Inverted combustion engine (12G) manufacturing supercritical pressure steam (5H) to produce injection combustion heat exchange Supercritical pressure steam (5H) driven vertical all blade steam water gravity turbine (11Z) And coalescing method. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比60にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Injected fuel into the compressed air heat exchanger (2Y) with a suction blade compression / reduction ratio of 60 by reverse reversal of the air (28a) heated by the solar heater (21) with reverse osmosis water (52D). Inverted combustion engine (12G) manufacturing supercritical pressure steam (5H) to produce injection combustion heat exchange Supercritical pressure steam (5H) driven vertical all blade steam water gravity turbine (11Z) And coalescing method. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比70にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Injected fuel to the compressed air heat exchanger (2Y) with a suction blade compression / reduction ratio of 70 by double reversal of the compression blades obtained by cooling the air (28a) heated by the solar heater (21) with reverse osmosis water (52D). Inverted combustion engine (12G) manufacturing supercritical pressure steam (5H) to produce injection combustion heat exchange Supercritical pressure steam (5H) driven vertical all blade steam water gravity turbine (11Z) And coalescing method. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比80にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Injected fuel to the compressed air heat exchanger (2Y) with a suction blade compression / reduction ratio of 80 by double reversal of the compression blades obtained by cooling the air (28a) heated to high temperature by the solar heater (21) with reverse osmosis water (52D) Inverted combustion engine (12G) manufacturing supercritical pressure steam (5H) to produce injection combustion heat exchange Supercritical pressure steam (5H) driven vertical all blade steam water gravity turbine (11Z) And coalescing method. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比90にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Injected fuel into the compressed air heat exchanger (2Y) by suction air compression compression ratio 90 by compression blade double reversal in which air (28a) heated to high temperature by the solar heater (21) is cooled by reverse osmosis water (52D) Inverted combustion engine (12G) manufacturing supercritical pressure steam (5H) to produce injection combustion heat exchange Supercritical pressure steam (5H) driven vertical all blade steam water gravity turbine (11Z) And coalescing method. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比100にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Injected fuel to the compressed air heat exchanger (2Y) with a suction blade compression / reverse compression ratio of 100 by reverse osmosis water (52D) cooling of the air (28a) heated to a high temperature by the solar heater (21) with reverse osmosis water (52D). Inverted combustion engine (12G) manufacturing supercritical pressure steam (5H) to produce injection combustion heat exchange Supercritical pressure steam (5H) driven vertical all blade steam water gravity turbine (11Z) And coalescing method. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比50にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)を同一燃料量既存ボイラーの50倍以上製造する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Injected fuel to the compressed air heat exchanger (2Y) with the suction blade compression compression ratio 50 by double reversal of the compression blades, which is cooled by reverse osmosis water (52D) of the air (28a) heated to high temperature by the solar heater (21) Injection combustion heat exchange supercritical pressure steam (5H) producing the same fuel amount more than 50 times the existing boilers, counter rotating engine (12G) manufacturing supercritical pressure steam (5H) driven vertical all-steam steam water gravity turbine (11Z) ) Various energy storage cycle coalescence engines and coalescence methods for power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比60にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)を同一燃料量既存ボイラーの60倍以上製造する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Injected fuel into the compressed air heat exchanger (2Y) with a suction blade compression / reduction ratio of 60 by reverse reversal of the air (28a) heated by the solar heater (21) with reverse osmosis water (52D). Injection combustion heat exchange supercritical pressure steam (5H) producing the same fuel quantity more than 60 times the existing boiler, counter rotating engine (12G) production supercritical pressure steam (5H) driven vertical all-steam steam water gravity turbine (11Z) ) Various energy storage cycle coalescence engines and coalescence methods for power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比70にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)を同一燃料量既存ボイラーの70倍以上製造する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Injected fuel to the compressed air heat exchanger (2Y) with a suction blade compression / reduction ratio of 70 by double reversal of the compression blades obtained by cooling the air (28a) heated at the high temperature by the solar heater (21) with reverse osmosis water (52D) Injection combustion heat exchange supercritical pressure steam (5H) with the same fuel quantity producing over 70 times the existing boiler, counter rotating engine (12G) production supercritical pressure steam (5H) driven vertical rotor blade steam water gravity turbine (11Z) ) Various energy storage cycle coalescence engines and coalescence methods for power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比80にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)を同一燃料量既存ボイラーの80倍以上製造する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Injected fuel to the compressed air heat exchanger (2Y) with a suction blade compression / reduction ratio of 80 by double reversal of the compression blades obtained by cooling the air (28a) heated to high temperature by the solar heater (21) with reverse osmosis water (52D) Injection combustion heat exchange supercritical pressure steam (5H), which produces the same fuel quantity more than 80 times the existing boiler, counter-rotating engine (12G) production supercritical pressure steam (5H) driven vertical all-steam steam water gravity turbine (11Z) ) Various energy storage cycle coalescence engines and coalescence methods for power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比90にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)を同一燃料量既存ボイラーの90倍以上製造する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Injected fuel into the compressed air heat exchanger (2Y) by suction air compression compression ratio 90 by compression blade double reversal in which air (28a) heated to high temperature by the solar heater (21) is cooled by reverse osmosis water (52D) Injection combustion heat exchange supercritical pressure steam (5H), which produces the same fuel amount more than 90 times the existing boiler, counter rotating engine (12G) production supercritical pressure steam (5H) driven vertical all blade steam water gravity turbine (11Z) ) Various energy storage cycle coalescence engines and coalescence methods for power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比100にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)を同一燃料量既存ボイラーの100倍以上製造する二重反転機関(12G)製造超臨界圧力水蒸気(5H)駆動竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Injected fuel to the compressed air heat exchanger (2Y) with a suction blade compression / reverse compression ratio of 100 by reverse osmosis water (52D) cooling of the air (28a) heated to a high temperature by the solar heater (21) with reverse osmosis water (52D). Injection combustion heat exchange supercritical pressure steam (5H) with the same fuel quantity 100 times or more of the existing boiler, counter-rotating engine (12G) production supercritical pressure steam (5H) driven vertical all-steam steam water gravity turbine (11Z) ) Various energy storage cycle coalescence engines and coalescence methods for power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比50以上にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電とした竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Air (28a) heated at a high temperature by the solar heater (21) is reverse osmosis water (52D) cooled and compressed into a compressed air heat exchanger (2Y) with a suction blade compression / reduction ratio of 50 or more by double inversion. Fuel injection combustion heat exchange supercritical pressure steam (5H) producing counter-rotating engine (12G) + vertical all-blade steam water gravity turbine (11Z) power generation Various energy storage cycle coalescence engines and coalescence methods. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比60以上にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電とした竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Air (28a) heated at a high temperature by the solar heater (21) is reverse osmosis water (52D) cooled and compressed into a compressed air heat exchanger (2Y) with a suction blade compression and compression ratio of 60 or more by double reversal. Fuel injection combustion heat exchange supercritical pressure steam (5H) producing counter-rotating engine (12G) + vertical all-blade steam water gravity turbine (11Z) power generation Various energy storage cycle coalescence engines and coalescence methods. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比70以上にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電とした竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Air (28a) heated at a high temperature by the solar heater (21) is reverse osmosis water (52D) cooled and compressed into a compressed air heat exchanger (2Y) with a suction blade compression ratio of 70 or more by double reversal. Fuel injection combustion heat exchange supercritical pressure steam (5H) producing counter-rotating engine (12G) + vertical all-blade steam water gravity turbine (11Z) power generation Various energy storage cycle coalescence engines and coalescence methods. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比80以上にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電とした竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Air (28a) heated at a high temperature by the solar heater (21) is reverse osmosis water (52D) cooled and compressed into a compressed air heat exchanger (2Y) with a suction blade compression / reverse ratio of 80 or more by double reversal. Fuel injection combustion heat exchange supercritical pressure steam (5H) producing counter-rotating engine (12G) + vertical all-blade steam water gravity turbine (11Z) power generation Various energy storage cycle coalescence engines and coalescence methods. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比90以上にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電とした竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Air (28a) heated at a high temperature by a solar heater (21) is reverse osmosis water (52D) cooled and compressed into a compressed air heat exchanger (2Y) with a suction blade compression ratio of 90 or more by double reversal. Fuel injection combustion heat exchange supercritical pressure steam (5H) producing counter-rotating engine (12G) + vertical all-blade steam water gravity turbine (11Z) power generation Various energy storage cycle coalescence engines and coalescence methods. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比100以上にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電とした竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Air (28a) heated to high temperature by the solar heater (21) is cooled by reverse osmosis water (52D) and compressed into the compressed air heat exchanger (2Y) with a suction blade compression / reversal ratio of 100 or more by reverse rotation. Fuel injection combustion heat exchange supercritical pressure steam (5H) producing counter-rotating engine (12G) + vertical all-blade steam water gravity turbine (11Z) power generation Various energy storage cycle coalescence engines and coalescence methods. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比50以上にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電とした竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Air (28a) heated at a high temperature by the solar heater (21) is reverse osmosis water (52D) cooled and compressed into a compressed air heat exchanger (2Y) with a suction blade compression / reduction ratio of 50 or more by double inversion. Fuel injection combustion heat exchange supercritical pressure steam (5H) producing counter-rotating engine (12G) + vertical all-blade steam water gravity turbine (11Z) power generation Various energy storage cycle coalescence engines and coalescence methods. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比60以上にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電とした竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Air (28a) heated at a high temperature by the solar heater (21) is reverse osmosis water (52D) cooled and compressed into a compressed air heat exchanger (2Y) with a suction blade compression and compression ratio of 60 or more by double reversal. Fuel injection combustion heat exchange supercritical pressure steam (5H) producing counter-rotating engine (12G) + vertical all-blade steam water gravity turbine (11Z) power generation Various energy storage cycle coalescence engines and coalescence methods. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比70以上にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電とした竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Air (28a) heated at a high temperature by the solar heater (21) is reverse osmosis water (52D) cooled and compressed into a compressed air heat exchanger (2Y) with a suction blade compression ratio of 70 or more by double reversal. Fuel injection combustion heat exchange supercritical pressure steam (5H) producing counter-rotating engine (12G) + vertical all-blade steam water gravity turbine (11Z) power generation Various energy storage cycle coalescence engines and coalescence methods. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比80以上にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電とした竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Air (28a) heated at a high temperature by the solar heater (21) is reverse osmosis water (52D) cooled and compressed into a compressed air heat exchanger (2Y) with a suction blade compression / reverse ratio of 80 or more by double reversal. Fuel injection combustion heat exchange supercritical pressure steam (5H) producing counter-rotating engine (12G) + vertical all-blade steam water gravity turbine (11Z) power generation Various energy storage cycle coalescence engines and coalescence methods. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比90以上にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電とした竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Air (28a) heated at a high temperature by a solar heater (21) is reverse osmosis water (52D) cooled and compressed into a compressed air heat exchanger (2Y) with a suction blade compression ratio of 90 or more by double reversal. Fuel injection combustion heat exchange supercritical pressure steam (5H) producing counter-rotating engine (12G) + vertical all-blade steam water gravity turbine (11Z) power generation Various energy storage cycle coalescence engines and coalescence methods. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比100以上にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電とした竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Air (28a) heated to high temperature by the solar heater (21) is cooled by reverse osmosis water (52D) and compressed into the compressed air heat exchanger (2Y) with a suction blade compression / reversal ratio of 100 or more by reverse rotation. Fuel injection combustion heat exchange supercritical pressure steam (5H) producing counter-rotating engine (12G) + vertical all-blade steam water gravity turbine (11Z) power generation Various energy storage cycle coalescence engines and coalescence methods. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比50以上にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電とし同一燃料量既存火力発電の20倍以上の発電量にした竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Air (28a) heated at a high temperature by the solar heater (21) is reverse osmosis water (52D) cooled and compressed into a compressed air heat exchanger (2Y) with a suction blade compression / reduction ratio of 50 or more by double inversion. Fuel-injection combustion heat exchange supercritical pressure steam (5H) producing counter-rotating engine (12G) + vertical all-blade steam water gravity turbine (11Z) power generation with the same fuel amount More than 20 times that of existing thermal power generation Various energy storage cycle coalescing engines and coalescence methods for a vertical all blade steam water gravity turbine (11Z) power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比60以上にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電とし同一燃料量既存火力発電の40倍以上の発電量にした竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Air (28a) heated at a high temperature by the solar heater (21) is reverse osmosis water (52D) cooled and compressed into a compressed air heat exchanger (2Y) with a suction blade compression and compression ratio of 60 or more by double reversal. Fuel-injection combustion heat exchange supercritical pressure steam (5H) to produce counter-rotating engine (12G) + vertical-type full-blade steam water gravity turbine (11Z) power generation, same fuel amount 40% more than existing thermal power generation Various energy storage cycle coalescing engines and coalescence methods for a vertical all blade steam water gravity turbine (11Z) power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比70以上にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電とし同一燃料量既存火力発電の60倍以上の発電量にした竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Air (28a) heated at a high temperature by the solar heater (21) is reverse osmosis water (52D) cooled and compressed into a compressed air heat exchanger (2Y) with a suction blade compression ratio of 70 or more by double reversal. Fuel injection combustion heat exchange supercritical pressure steam (5H) producing counter rotating engine (12G) + vertical all blade steam water gravity turbine (11Z) power generation with the same fuel amount Over 60 times the power generation amount of existing thermal power generation Various energy storage cycle coalescing engines and coalescence methods for a vertical all blade steam water gravity turbine (11Z) power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比80以上にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電とし同一燃料量既存火力発電の80倍以上の発電量にした竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Air (28a) heated at a high temperature by the solar heater (21) is reverse osmosis water (52D) cooled and compressed into a compressed air heat exchanger (2Y) with a suction blade compression / reverse ratio of 80 or more by double reversal. Fuel-injection combustion heat exchange supercritical pressure steam (5H) producing counter-rotating engine (12G) + vertical all-blade steam water gravity turbine (11Z) power generation with the same fuel amount 80% more than the existing thermal power generation Various energy storage cycle coalescing engines and coalescence methods for a vertical all blade steam water gravity turbine (11Z) power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比90以上にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電とし同一燃料量既存火力発電の100倍以上の発電量にした竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Air (28a) heated at a high temperature by a solar heater (21) is reverse osmosis water (52D) cooled and compressed into a compressed air heat exchanger (2Y) with a suction blade compression ratio of 90 or more by double reversal. Fuel injection combustion heat exchange supercritical pressure steam (5H) to produce counter-rotating engine (12G) + vertical-type full-blade steam-water gravity turbine (11Z) power generation with the same fuel amount More than 100 times that of existing thermal power generation Various energy storage cycle coalescing engines and coalescence methods for a vertical all blade steam water gravity turbine (11Z) power generation. 太陽光加熱器(21)で加熱高温とした空気(28a)を逆浸透水(52D)冷却した圧縮翼二重反転で吸入冷却圧縮圧縮比100以上にして圧縮空気熱交換器(2Y)に噴射燃料噴射燃焼熱交換超臨界圧力水蒸気(5H)製造する二重反転機関(12G)+竪型全動翼蒸気水重力タービン(11Z)発電とし同一燃料量既存火力発電の120倍以上の発電量にした竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。   Air (28a) heated to high temperature by the solar heater (21) is cooled by reverse osmosis water (52D) and compressed into the compressed air heat exchanger (2Y) with a suction blade compression / reversal ratio of 100 or more by reverse rotation. Fuel injection combustion heat exchange supercritical pressure steam (5H) to produce counter rotating engine (12G) + vertical type full-blade steam water gravity turbine (11Z) power generation with same fuel amount 120 times more than existing thermal power generation Various energy storage cycle coalescing engines and coalescence methods for a vertical all blade steam water gravity turbine (11Z) power generation. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)+逆浸透水(52D)を超臨界圧力水蒸気管(5H)+柱管(12B)により竪型全動翼蒸気水重力タービン(11Z)最上部上昇して比重大物質加速機(6W)を解放超臨界圧力水蒸気(5H)を噴射して逆浸透水(52D)を吸引噴射真空中重力加速度加速して円筒外側動翼群(60D)+円筒内側動翼群(60C)を二重反転駆動する竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure steam (5H) + reverse osmosis water (52D) produced by the counter-rotating engine (12G) is converted into a vertical all blade steam water gravity turbine (11Z) by supercritical pressure steam pipe (5H) + column pipe (12B). ) Raise the top and release the specific material accelerator (6W). Supercritical pressure water vapor (5H) is injected and reverse osmosis water (52D) is sucked and injected. ) + Various energy storage cycle coalescing engines and coalescence methods that use a vertical all-blade steam-water gravity turbine (11Z) power generation that double-inverts the cylindrical inner rotor blade group (60C). 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)+逆浸透水(52D)を超臨界圧力水蒸気管(5H)+柱管(12B)により竪型全動翼蒸気水重力タービン(11Z)最上部上昇して比重大物質加速機(6W)を解放し超臨界圧力水蒸気(5H)を噴射して逆浸透水(52D)を吸引噴射真空中重力加速度加速して円筒外側動翼群(60D)+円筒内側動翼群(60C)を二重反転駆動の過程で衝動液化蒸気容積縮小する竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure steam (5H) + reverse osmosis water (52D) produced by the counter-rotating engine (12G) is converted into a vertical all blade steam water gravity turbine (11Z) by supercritical pressure steam pipe (5H) + column pipe (12B). ) Ascending the top, releasing the specific material accelerator (6W), injecting supercritical pressure water vapor (5H), accelerating reverse osmosis water (52D) by gravitational acceleration in vacuum 60D) + cylindrical inner rotor blade group (60C) various energy storage cycle coalescence engine and coalescence method using vertical all-blade steam water gravity turbine (11Z) power generation to reduce impulse liquefied steam volume in the process of counter-rotating drive. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)+逆浸透水(52D)を超臨界圧力水蒸気管(5H)+柱管(12B)により竪型全動翼蒸気水重力タービン(11Z)最上部上昇して比重大物質加速機(6W)を解放し超臨界圧力水蒸気(5H)を噴射して水を吸引して円筒外側動翼群(60D)+円筒内側動翼群(60C)を二重反転駆動の過程で衝動液化蒸気容積縮小する竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure steam (5H) + reverse osmosis water (52D) produced by the counter-rotating engine (12G) is converted into a vertical all blade steam water gravity turbine (11Z) by supercritical pressure steam pipe (5H) + column pipe (12B). ) Ascending the top to release the specific material accelerator (6W), injecting supercritical pressure water vapor (5H) and sucking water, cylindrical outer blade group (60D) + cylindrical inner blade group (60C) Various energy storage cycle coalescence engine and coalescence method using a vertical all blade steam water gravity turbine (11Z) power generation that reduces the volume of impulse liquefied steam in the process of counter-rotating drive. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)+逆浸透水(52D)を超臨界圧力水蒸気管(5H)+柱管(12B)により竪型全動翼蒸気水重力タービン(11Z)最上部上昇して比重大物質加速機(6W)を解放し超臨界圧力水蒸気(5H)を噴射して逆浸透水(52D)を吸引噴射して円筒外側動翼群(60D)+円筒内側動翼群(60C)を二重反転駆動の過程で衝動液化蒸気容積縮小する竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure steam (5H) + reverse osmosis water (52D) produced by the counter-rotating engine (12G) is converted into a vertical all blade steam water gravity turbine (11Z) by supercritical pressure steam pipe (5H) + column pipe (12B). ) Ascending the top, releasing the specific critical material accelerator (6W), injecting supercritical pressure water vapor (5H), sucking and injecting reverse osmosis water (52D), cylindrical outer blade group (60D) + cylinder inner side Various energy storage cycle coalescence engines and coalescence methods that use a vertical all-blade steam water gravity turbine (11Z) power generation system that reduces the impulse liquefied steam volume in the process of counter-rotating the rotor blade group (60C). 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)+逆浸透水(52D)を超臨界圧力水蒸気管(5H)+柱管(12B)により竪型全動翼蒸気水重力タービン(11Z)最上部上昇して比重大物質加速機(6W)を解放し超臨界圧力水蒸気(5H)を噴射低温水吸引噴射して円筒外側動翼群(60D)+円筒内側動翼群(60C)を二重反転駆動の過程で衝動液化蒸気容積縮小する竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure steam (5H) + reverse osmosis water (52D) produced by the counter-rotating engine (12G) is converted into a vertical all blade steam water gravity turbine (11Z) by supercritical pressure steam pipe (5H) + column pipe (12B). ) Ascend to the top to release the specific material accelerator (6W) and inject supercritical pressure water vapor (5H) with low-temperature water suction to create a cylindrical outer blade group (60D) + a cylindrical inner blade group (60C). Various energy storage cycle coalescence engines and coalescence methods for vertical power blade steam water gravity turbine (11Z) power generation in which impulse liquefied steam volume is reduced in the process of counter-rotating drive. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)+逆浸透水(52D)を超臨界圧力水蒸気管(5H)+柱管(12B)により竪型全動翼蒸気水重力タービン(11Z)最上部上昇して比重大物質加速機(6W)を解放し超臨界圧力水蒸気(5H)を噴射して低温水を吸引噴射真空中の重力加速度で加速して円筒外側動翼群(60D)+円筒内側動翼群(60C)を二重反転駆動の過程で衝動液化蒸気容積縮小する竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure steam (5H) + reverse osmosis water (52D) produced by the counter-rotating engine (12G) is converted into a vertical all blade steam water gravity turbine (11Z) by supercritical pressure steam pipe (5H) + column pipe (12B). ) Cylinder outer rotor blade group (60D) by raising the top and releasing the specific material accelerator (6W), injecting supercritical pressure water vapor (5H) and accelerating low-temperature water by gravitational acceleration in vacuum + Various energy storage cycle coalescing engines and coalescence methods that use a vertical all-blade steam water gravity turbine (11Z) power generation that reduces the volume of impulse liquefied steam in the process of double inversion drive for the inner rotor blade group (60C). 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)+逆浸透水(52D)を超臨界圧力水蒸気管(5H)+柱管(12B)により竪型全動翼蒸気水重力タービン(11Z)最上部上昇して比重大物質加速機(6W)を解放し超臨界圧力水蒸気(5H)を噴射して高温水を吸引して円筒外側動翼群(60D)+円筒内側動翼群(60C)を二重反転駆動の過程で衝動液化蒸気容積縮小する竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure steam (5H) + reverse osmosis water (52D) produced by the counter-rotating engine (12G) is converted into a vertical all blade steam water gravity turbine (11Z) by supercritical pressure steam pipe (5H) + column pipe (12B). ) Ascend to the top, release the specific critical material accelerator (6W), inject supercritical pressure water vapor (5H), suck high temperature water, and use cylindrical outer blade group (60D) + cylindrical inner blade group (60C) ) Is a vertical all blade steam water gravity turbine (11Z) power generation that reduces the volume of impulse liquefied steam in the process of counter-rotating drive, and various energy storage cycle coalescence engines and coalescence methods. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)+逆浸透水(52D)を超臨界圧力水蒸気管(5H)+柱管(12B)により竪型全動翼蒸気水重力タービン(11Z)最上部上昇して比重大物質加速機(6W)を解放し超臨界圧力水蒸気(5H)を噴射して高温水を吸引噴射真空中の重力加速度で加速して円筒外側動翼群(60D)+円筒内側動翼群(60C)を二重反転駆動の過程で衝動液化蒸気容積縮小する竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure steam (5H) + reverse osmosis water (52D) produced by the counter-rotating engine (12G) is converted into a vertical all blade steam water gravity turbine (11Z) by supercritical pressure steam pipe (5H) + column pipe (12B). ) Cylinder outer rotor blade group (60D) that rises at the top, releases the specific critical material accelerator (6W), injects supercritical pressure water vapor (5H), accelerates high-temperature water by gravitational acceleration in vacuum + Various energy storage cycle coalescing engines and coalescence methods that use a vertical all-blade steam water gravity turbine (11Z) power generation that reduces the volume of impulse liquefied steam in the process of double inversion drive for the inner rotor blade group (60C). 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)+逆浸透水(52D)を超臨界圧力水蒸気管(5H)+柱管(12B)により竪型全動翼蒸気水重力タービン(11Z)最上部上昇して比重大物質加速機(6W)を解放し超臨界圧力水蒸気(5H)を噴射して高温水を吸引噴射真空中重力加速度加速して円筒外側動翼群(60D)+円筒内側動翼群(60C)を二重反転駆動の過程で衝動液化蒸気容積縮小する竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure steam (5H) + reverse osmosis water (52D) produced by the counter-rotating engine (12G) is converted into a vertical all blade steam water gravity turbine (11Z) by supercritical pressure steam pipe (5H) + column pipe (12B). ) Ascend to the top, release the specific critical material accelerator (6W), inject supercritical pressure water vapor (5H), suck high temperature water, inject and accelerate the gravitational acceleration in vacuum, and outside blade group (60D) + cylinder Various energy storage cycle coalescence engines and coalescence methods that use a vertical all-blade steam water gravity turbine (11Z) power generation that reduces the volume of impulse liquefied steam in the process of counter-rotating the inner rotor blade group (60C). 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)+逆浸透水(52D)を超臨界圧力水蒸気管(5H)+柱管(12B)により竪型全動翼蒸気水重力タービン(11Z)最上部上昇して比重大物質加速機(6W)を解放し超臨界圧力水蒸気(5H)を噴射して水を吸引噴射真空中重力加速度加速して円筒外側動翼群(60D)+円筒内側動翼群(60C)を二重反転駆動の過程で衝動液化蒸気容積縮小する竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure steam (5H) + reverse osmosis water (52D) produced by the counter-rotating engine (12G) is converted into a vertical all blade steam water gravity turbine (11Z) by supercritical pressure steam pipe (5H) + column pipe (12B). ) Ascend to the top, release the specific material accelerator (6W), inject supercritical pressure water vapor (5H) to suck water and accelerate the gravity acceleration in the vacuum, and the outer blade group (60D) + inner cylinder Various energy storage cycle coalescence engines and coalescence methods that use a vertical all-blade steam water gravity turbine (11Z) power generation system that reduces the impulse liquefied steam volume in the process of counter-rotating the rotor blade group (60C). 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)+逆浸透水(52D)を超臨界圧力水蒸気管(5H)+柱管(12B)により竪型全動翼蒸気水重力タービン(11Z)最上部上昇して比重大物質加速機(6W)を解放し超臨界圧力水蒸気(5H)を噴射して水を吸引噴射真空中重力加速度加速して円筒外側動翼群(60D)+円筒内側動翼群(60C)を二重反転駆動の過程で衝動液化蒸気容積縮小する竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure steam (5H) + reverse osmosis water (52D) produced by the counter-rotating engine (12G) is converted into a vertical all blade steam water gravity turbine (11Z) by supercritical pressure steam pipe (5H) + column pipe (12B). ) Ascend to the top, release the specific material accelerator (6W), inject supercritical pressure water vapor (5H) to suck water and accelerate the gravity acceleration in the vacuum, and the outer blade group (60D) + inner cylinder Various energy storage cycle coalescence engines and coalescence methods that use a vertical all-blade steam water gravity turbine (11Z) power generation system that reduces the impulse liquefied steam volume in the process of counter-rotating the rotor blade group (60C). 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)+逆浸透水(52D)を超臨界圧力水蒸気管(5H)+柱管(12B)により竪型全動翼蒸気水重力タービン(11Z)最上部上昇して比重大物質加速機(6W)を解放し超臨界圧力水蒸気(5H)を噴射して低温水吸引噴射真空中重力加速度加速して円筒外側動翼群(60D)+円筒内側動翼群(60C)を二重反転駆動の過程で衝動液化蒸気容積縮小する竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure steam (5H) + reverse osmosis water (52D) produced by the counter-rotating engine (12G) is converted into a vertical all blade steam water gravity turbine (11Z) by supercritical pressure steam pipe (5H) + column pipe (12B). ) Ascend to the top, release the specific material accelerator (6W), inject supercritical pressure water vapor (5H), accelerate low-temperature water suction injection, gravity acceleration in vacuum, cylinder outer blade group (60D) + cylinder inner side Various energy storage cycle coalescence engines and coalescence methods that use a vertical all-blade steam water gravity turbine (11Z) power generation system that reduces the impulse liquefied steam volume in the process of counter-rotating the rotor blade group (60C). 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)+逆浸透水(52D)を超臨界圧力水蒸気管(5H)+柱管(12B)により竪型全動翼蒸気水重力タービン(11Z)最上部上昇して比重大物質加速機(6W)を解放し超臨界圧力水蒸気(5H)を噴射して低温水を吸引噴射真空中重力加速度加速して円筒外側動翼群(60D)+円筒内側動翼群(60C)を二重反転駆動の過程で衝動液化蒸気容積縮小する竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure steam (5H) + reverse osmosis water (52D) produced by the counter-rotating engine (12G) is converted into a vertical all blade steam water gravity turbine (11Z) by supercritical pressure steam pipe (5H) + column pipe (12B). ) Ascend to the top, release the specific material accelerator (6W), inject supercritical pressure water vapor (5H), suck low temperature water, inject and accelerate the gravitational acceleration in vacuum, and outer blade group (60D) + cylinder Various energy storage cycle coalescence engines and coalescence methods that use a vertical all-blade steam water gravity turbine (11Z) power generation that reduces the volume of impulse liquefied steam in the process of counter-rotating the inner rotor blade group (60C). 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)+逆浸透水(52D)を超臨界圧力水蒸気管(5H)+柱管(12B)により竪型全動翼蒸気水重力タービン(11Z)最上部上昇して比重大物質加速機(6W)を解放し超臨界圧力水蒸気(5H)を噴射して高温水を吸引噴射真空中重力加速度加速して円筒外側動翼群(60D)+円筒内側動翼群(60C)を二重反転駆動の過程で衝動液化蒸気容積縮小する竪型全動翼蒸気水重力タービン(11Z)発電とする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure steam (5H) + reverse osmosis water (52D) produced by the counter-rotating engine (12G) is converted into a vertical all blade steam water gravity turbine (11Z) by supercritical pressure steam pipe (5H) + column pipe (12B). ) Ascend to the top, release the specific critical material accelerator (6W), inject supercritical pressure water vapor (5H), suck high temperature water, inject and accelerate the gravitational acceleration in vacuum, and outside blade group (60D) + cylinder Various energy storage cycle coalescence engines and coalescence methods that use a vertical all-blade steam water gravity turbine (11Z) power generation that reduces the volume of impulse liquefied steam in the process of counter-rotating the inner rotor blade group (60C). 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を海底のメタンハイドレートに注入する各種エネルギ保存サイクル合体機関及び合体方法。 Various energy conservation cycle coalescence engine and coalescence method for injecting supercritical pressure steam (5H) produced by a counter-rotating engine (12G) into methane hydrate on the seabed. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を永久凍土地下のメタンハイドレートに注入する各種エネルギ保存サイクル合体機関及び合体方法。 Various energy conservation cycle coalescence engine and coalescence method for injecting supercritical pressure steam (5H) produced by a counter-rotating engine (12G) into methane hydrate under permafrost. 二重反転機関(12G)製造の高温逆浸透水(52D)を海底のメタンハイドレートに注入する各種エネルギ保存サイクル合体機関及び合体方法。 Various energy conservation cycle coalescence engine and coalescence method for injecting high temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) into methane hydrate on the seabed. 二重反転機関(12G)製造の高温逆浸透水(52D)を永久凍土地下のメタンハイドレートに注入する各種エネルギ保存サイクル合体機関及び合体方法。 Various energy conservation cycle coalescence engines and coalescence methods for injecting high temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) into methane hydrate under permafrost. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を海底のメタンハイドレートに注入メタンを回収する各種エネルギ保存サイクル合体機関及び合体方法。 Various energy storage cycle coalescence engines and coalescence methods for recovering methane by injecting supercritical pressure water vapor (5H) produced by a counter-rotating engine (12G) into methane hydrate on the seabed. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を永久凍土地下のメタンハイドレートに注入メタンを回収する各種エネルギ保存サイクル合体機関及び合体方法。 Various energy storage cycle coalescence engines and coalescence methods for recovering methane by injecting supercritical pressure water vapor (5H) produced by a counter-rotating engine (12G) into methane hydrate under permafrost. 二重反転機関(12G)製造の高温逆浸透水(52D)を海底のメタンハイドレートに注入メタンを回収する各種エネルギ保存サイクル合体機関及び合体方法。 Various energy storage cycle coalescence engines and coalescence methods for recovering methane by injecting high temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) into methane hydrate on the seabed. 二重反転機関(12G)製造の高温逆浸透水(52D)を永久凍土地下のメタンハイドレートに注入メタンを回収する各種エネルギ保存サイクル合体機関及び合体方法。 Various energy conservation cycle coalescence engines and coalescence methods for recovering methane by injecting high temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) into methane hydrate under permafrost. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を海底のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却する各種エネルギ保存サイクル合体機関及び合体方法。 Various energy storage cycle coalescence engines and coalescence methods in which supercritical pressure water vapor (5H) produced by a counter-rotating engine (12G) is injected into methane hydrate on the seabed and methane is recovered and cooled by the counter-rotating engine (12G) exhaust. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却する各種エネルギ保存サイクル合体機関及び合体方法。 Various energy storage cycle coalescence engines and coalescence methods for injecting supercritical pressure steam (5H) produced by a counter-rotating engine (12G) into methane hydrate under permafrost and recovering methane and cooling it with counter-rotating engine (12G) exhaust. 二重反転機関(12G)製造の高温逆浸透水(52D)を海底のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却する各種エネルギ保存サイクル合体機関及び合体方法。 High temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) is injected into a methane hydrate on the seabed, and methane is recovered and cooled by a counter-rotating engine (12G) exhaust. 二重反転機関(12G)製造の高温逆浸透水(52D)を永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却する各種エネルギ保存サイクル合体機関及び合体方法。 High temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) is injected into methane hydrate under permafrost land, methane is recovered, and the engine is combined with various energy storage cycle engines and cooled by a counter-rotating engine (12G) exhaust. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を海底のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンにする各種エネルギ保存サイクル合体機関及び合体方法。 Incorporating supercritical pressure water vapor (5H) produced in a counter-rotating engine (12G) into methane hydrate on the seabed, recovering methane, and refrigerated liquid methane in the counter-rotating engine (12G) exhaust to combine various energy storage cycle engines and methods . 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンにする各種エネルギ保存サイクル合体機関及び合体方法。 Incorporating supercritical pressure water vapor (5H) produced by counter-rotating engine (12G) into methane hydrate under permafrost land, recovering methane, and combining various energy conservation cycle coal-cooled engines into cooled liquid methane by counter-rotating engine (12G) exhaust, and Merge method. 二重反転機関(12G)製造の高温逆浸透水(52D)を海底のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンにする各種エネルギ保存サイクル合体機関及び合体方法。 Combined high temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) into methane hydrate on the seabed, recovering methane, and refrigerated liquid methane from the counter-rotating engine (12G) exhaust to combine various energy storage cycle coalescence engines and coalescence methods . 二重反転機関(12G)製造の高温逆浸透水(52D)を永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンにする各種エネルギ保存サイクル合体機関及び合体方法。 Combined high temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) into methane hydrate under permafrost land, recovering methane, and refrigerated liquid methane by the counter-rotating engine (12G) exhaust, Merge method. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を海底のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンで回収利用する各種エネルギ保存サイクル合体機関及び合体方法。 Incorporating supercritical pressure water vapor (5H) produced in a counter-rotating engine (12G) into methane hydrate on the seabed, recovering methane, and recovering and using liquefied liquid methane in the counter-rotating engine (12G) exhaust, Merge method. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンで回収利用する各種エネルギ保存サイクル合体機関及び合体方法。 Incorporating supercritical pressure water vapor (5H) produced by counter-rotating engine (12G) into methane hydrate under permafrost land Collecting methane Collecting various energy conservation cycles for recovering and using cooled liquid methane in counter-inverting engine (12G) exhaust Organization and coalescence method. 二重反転機関(12G)製造の高温逆浸透水(52D)を海底のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンで回収利用する各種エネルギ保存サイクル合体機関及び合体方法。 Combined high temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) into methane hydrate on the seabed, recovering methane, and recovering and using chilled liquid methane in the counter-rotating engine (12G) exhaust, Merge method. 二重反転機関(12G)製造の高温逆浸透水(52D)を永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンで回収利用する各種エネルギ保存サイクル合体機関及び合体方法。 High temperature reverse osmosis water (52D) produced by counter-rotating engine (12G) is injected into methane hydrate under permafrost land. Methane is recovered. Combined with various energy conservation cycles to recover and use cooled methane in counter-inverting engine (12G) exhaust. Organization and coalescence method. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンにする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure water vapor (5H) produced by the counter-rotating engine (12G) is injected into the methane hydrate under the permafrost land with the transparent enclosure of the super large greenhouse, and the methane is recovered by the counter-rotating engine (12G) exhaust. Various energy storage cycle coalescence engines and coalescence methods. 二重反転機関(12G)製造の高温逆浸透水(52D)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンにする各種エネルギ保存サイクル合体機関及び合体方法。 High-temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) is equipped with a transparent enclosure in an ultra-large greenhouse and injected into methane hydrate under permafrost land. Various energy storage cycle coalescence engines and coalescence methods. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンで回収利用する各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure water vapor (5H) produced by the counter-rotating engine (12G) is injected into the methane hydrate under the permafrost land with the transparent enclosure of the super large greenhouse, and the methane is recovered by the counter-rotating engine (12G) exhaust. Various energy storage cycle coalescence engines and coalescence methods recovered and used in 二重反転機関(12G)製造の高温逆浸透水(52D)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンで回収利用する各種エネルギ保存サイクル合体機関及び合体方法。 High-temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) is equipped with a transparent enclosure in an ultra-large greenhouse and injected into methane hydrate under permafrost land. Various energy storage cycle coalescence engines and coalescence methods recovered and used in 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンにして氷を気化する各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure water vapor (5H) produced by the counter-rotating engine (12G) is injected into the methane hydrate under the permafrost land with the transparent enclosure of the super large greenhouse, and the methane is recovered by the counter-rotating engine (12G) exhaust. Various energy storage cycle coalescence engines and coalescence methods for vaporizing ice. 二重反転機関(12G)製造の高温逆浸透水(52D)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンにして氷を気化する各種エネルギ保存サイクル合体機関及び合体方法。 High-temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) is equipped with a transparent enclosure in an ultra-large greenhouse and injected into methane hydrate under permafrost land. Various energy storage cycle coalescence engines and coalescence methods for vaporizing ice. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンで回収利用して氷を気化する各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure water vapor (5H) produced by the counter-rotating engine (12G) is injected into the methane hydrate under the permafrost land with the transparent enclosure of the super large greenhouse, and the methane is recovered by the counter-rotating engine (12G) exhaust. Various energy storage cycle coalescence engines and coalescence methods that vaporize and recover ice by using the 二重反転機関(12G)製造の高温逆浸透水(52D)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンで回収利用して氷を気化する各種エネルギ保存サイクル合体機関及び合体方法。 High-temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) is equipped with a transparent enclosure in an ultra-large greenhouse and injected into methane hydrate under permafrost land. Various energy storage cycle coalescence engines and coalescence methods that vaporize and recover ice by using the 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンにして氷を気化透明囲いで凝縮する各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure water vapor (5H) produced by the counter-rotating engine (12G) is injected into the methane hydrate under the permafrost land with the transparent enclosure of the super large greenhouse, and the methane is recovered by the counter-rotating engine (12G) exhaust. Various energy storage cycle coalescence engines and coalescence methods for condensing ice in a vaporized transparent enclosure. 二重反転機関(12G)製造の高温逆浸透水(52D)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンにして氷を気化透明囲いで凝縮する各種エネルギ保存サイクル合体機関及び合体方法。 High-temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) is equipped with a transparent enclosure in an ultra-large greenhouse and injected into methane hydrate under permafrost land. Various energy storage cycle coalescence engines and coalescence methods for condensing ice in a vaporized transparent enclosure. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンで回収利用して氷を気化透明囲いで凝縮する各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure water vapor (5H) produced by the counter-rotating engine (12G) is injected into the methane hydrate under the permafrost land with the transparent enclosure of the super large greenhouse, and the methane is recovered by the counter-rotating engine (12G) exhaust. Various energy conservation cycle coalescence engines and coalescence methods that condense and condense ice in a vaporized transparent enclosure. 二重反転機関(12G)製造の高温逆浸透水(52D)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンで回収利用して氷を気化透明囲いで凝縮する各種エネルギ保存サイクル合体機関及び合体方法。 High-temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) is equipped with a transparent enclosure in an ultra-large greenhouse and injected into methane hydrate under permafrost land. Various energy conservation cycle coalescence engines and coalescence methods that condense and condense ice in a vaporized transparent enclosure. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンにして氷を気化透明囲いで凝縮して凝縮熱を発生温室にする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure water vapor (5H) produced by the counter-rotating engine (12G) is injected into the methane hydrate under the permafrost land with the transparent enclosure of the super large greenhouse, and the methane is recovered by the counter-rotating engine (12G) exhaust. Various energy conservation cycle coalescence engines and coalescence methods that condense ice in a vaporized transparent enclosure to produce heat of condensation. 二重反転機関(12G)製造の高温逆浸透水(52D)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンにして氷を気化透明囲いで凝縮して凝縮熱を発生温室にする各種エネルギ保存サイクル合体機関及び合体方法。 High-temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) is equipped with a transparent enclosure in an ultra-large greenhouse and injected into methane hydrate under permafrost land. Various energy conservation cycle coalescence engines and coalescence methods that condense ice in a vaporized transparent enclosure to produce heat of condensation. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンで回収利用して氷を気化透明囲いで凝縮して凝縮熱を発生温室にする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure water vapor (5H) produced by the counter-rotating engine (12G) is injected into the methane hydrate under the permafrost land with the transparent enclosure of the super large greenhouse, and the methane is recovered by the counter-rotating engine (12G) exhaust. Various energy conservation cycle coalescence engines and coalescence methods that collect and use ice to condense ice in a transparent enclosure to generate condensation heat. 二重反転機関(12G)製造の高温逆浸透水(52D)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンで回収利用して氷を気化透明囲いで凝縮して凝縮熱を発生温室にする各種エネルギ保存サイクル合体機関及び合体方法。 High-temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) is equipped with a transparent enclosure in an ultra-large greenhouse and injected into methane hydrate under permafrost land. Various energy conservation cycle coalescence engines and coalescence methods that collect and use ice to condense ice in a transparent enclosure to generate condensation heat. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンにして氷を気化透明囲いで凝縮して凝縮熱を発生水滴や日照時間の多い温室にする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure water vapor (5H) produced by the counter-rotating engine (12G) is injected into the methane hydrate under the permafrost land with the transparent enclosure of the super large greenhouse, and the methane is recovered by the counter-rotating engine (12G) exhaust. Various energy conservation cycle coalescence engines and coalescence methods that condense ice into a vaporized transparent enclosure to produce heat of condensation to produce greenhouses with many water droplets and sunshine hours. 二重反転機関(12G)製造の高温逆浸透水(52D)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンにして氷を気化透明囲いで凝縮して凝縮熱を発生水滴や日照時間の多い温室にする各種エネルギ保存サイクル合体機関及び合体方法。 High-temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) is equipped with a transparent enclosure in an ultra-large greenhouse and injected into methane hydrate under permafrost land. The methane is recovered and cooled by a counter-rotating engine (12G) exhaust liquid methane Various energy conservation cycle coalescence engines and coalescence methods that condense ice into a vaporized transparent enclosure to produce heat of condensation to produce greenhouses with many water droplets and sunshine hours. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンで回収利用して氷を気化透明囲いで凝縮して凝縮熱を発生水滴や日照時間の多い温室にする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure water vapor (5H) produced by the counter-rotating engine (12G) is injected into the methane hydrate under the permafrost land with the transparent enclosure of the super large greenhouse, and the methane is recovered by the counter-rotating engine (12G) exhaust. Various energy storage cycle coalescence engines and coalescence methods that condense and condense ice in a transparent enclosure and generate heat of condensation to generate greenhouses with many water droplets and sunshine hours. 二重反転機関(12G)製造の高温逆浸透水(52D)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンで回収利用して氷を気化透明囲いで凝縮して凝縮熱を発生水滴や日照時間の多い温室にする各種エネルギ保存サイクル合体機関及び合体方法。 High-temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) is equipped with a transparent enclosure in an ultra-large greenhouse and injected into methane hydrate under permafrost land. The methane is recovered and cooled by a counter-rotating engine (12G) exhaust liquid methane Various energy storage cycle coalescence engines and coalescence methods that condense and condense ice in a transparent enclosure and generate heat of condensation to generate greenhouses with many water droplets and sunshine hours. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンにして氷を気化透明囲いで凝縮して凝縮熱を発生水滴や日照時間の多い温室の牧草地製造の放牧にする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure water vapor (5H) produced by the counter-rotating engine (12G) is injected into the methane hydrate under the permafrost land with the transparent enclosure of the super large greenhouse, and the methane is recovered by the counter-rotating engine (12G) exhaust. Various energy conservation cycle coalescence engines and coalescence methods for condensing ice in a vaporized transparent enclosure to produce heat of condensation and producing grazing in greenhouses with a lot of water drops and sunshine hours. 二重反転機関(12G)製造の高温逆浸透水(52D)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンにして氷を気化透明囲いで凝縮して凝縮熱を発生水滴や日照時間の多い温室の牧草地製造の放牧にする各種エネルギ保存サイクル合体機関及び合体方法。 High-temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) is equipped with a transparent enclosure in an ultra-large greenhouse and injected into methane hydrate under permafrost land. The methane is recovered and cooled by a counter-rotating engine (12G) exhaust liquid methane Various energy conservation cycle coalescence engines and coalescence methods for condensing ice in a vaporized transparent enclosure to produce heat of condensation and producing grazing in greenhouses with a lot of water drops and sunshine hours. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンで回収利用して氷を気化透明囲いで凝縮して凝縮熱を発生水滴や日照時間の多い温室の牧草地製造の放牧にする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure water vapor (5H) produced by the counter-rotating engine (12G) is injected into the methane hydrate under the permafrost land with the transparent enclosure of the super large greenhouse, and the methane is recovered by the counter-rotating engine (12G) exhaust. Various energy conservation cycle merging engines and merging methods to condensate and condense ice in a transparent enclosure that collects and generates heat of condensation to produce grazing water in the production of pastures in greenhouses with a lot of sunlight and sunlight. 二重反転機関(12G)製造の高温逆浸透水(52D)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンで回収利用して氷を気化透明囲いで凝縮して凝縮熱を発生水滴や日照時間の多い温室の牧草地製造の放牧にする各種エネルギ保存サイクル合体機関及び合体方法。 High-temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) is equipped with a transparent enclosure in an ultra-large greenhouse and injected into methane hydrate under permafrost land. The methane is recovered and cooled by a counter-rotating engine (12G) exhaust liquid methane Various energy conservation cycle merging engines and merging methods to condensate and condense ice in a transparent enclosure that collects and generates heat of condensation to produce grazing water in the production of pastures in greenhouses with a lot of sunlight and sunlight. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンにして氷を気化透明囲いで凝縮して凝縮熱を発生水滴や日照時間の多い温室の牧草地製造の各種放牧により牛肉等の大量生産等にする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure water vapor (5H) produced by the counter-rotating engine (12G) is injected into the methane hydrate under the permafrost land with the transparent enclosure of the super large greenhouse, and the methane is recovered by the counter-rotating engine (12G) exhaust. A variety of energy conservation cycle coalescence engines and coalescence methods that condense ice in a vaporized transparent enclosure to generate heat of condensation and produce large quantities of beef, etc. by various grazing of greenhouse pasture production with a lot of sunshine hours. 二重反転機関(12G)製造の高温逆浸透水(52D)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンにして氷を気化透明囲いで凝縮して凝縮熱を発生水滴や日照時間の多い温室の牧草地製造の各種放牧により牛肉等の大量生産等にする各種エネルギ保存サイクル合体機関及び合体方法。 High-temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) is equipped with a transparent enclosure in an ultra-large greenhouse and injected into methane hydrate under permafrost land. The methane is recovered and cooled by a counter-rotating engine (12G) exhaust liquid methane A variety of energy conservation cycle coalescence engines and coalescence methods that condense ice in a vaporized transparent enclosure to generate heat of condensation and produce large quantities of beef, etc. by various grazing of greenhouse pasture production with a lot of sunshine hours. 二重反転機関(12G)製造の超臨界圧力水蒸気(5H)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンで回収利用して氷を気化透明囲いで凝縮して凝縮熱を発生水滴や日照時間の多い温室の牧草地製造の各種放牧により牛肉等の大量生産等にする各種エネルギ保存サイクル合体機関及び合体方法。 The supercritical pressure water vapor (5H) produced by the counter-rotating engine (12G) is injected into the methane hydrate under the permafrost land with the transparent enclosure of the super large greenhouse, and the methane is recovered by the counter-rotating engine (12G) exhaust. Collecting and using ice to condense and condense in a transparent enclosure to generate heat of condensation Various energy conservation cycle coalescence engines and coalescence methods for mass production of beef etc. by various grazing of greenhouse pasture production with a lot of water and sunshine hours . 二重反転機関(12G)製造の高温逆浸透水(52D)を超大型温室の透明囲い具備して永久凍土地下のメタンハイドレートに注入メタンを回収二重反転機関(12G)排気で冷却液体メタンで回収利用して氷を気化透明囲いで凝縮して凝縮熱を発生水滴や日照時間の多い温室の牧草地製造の各種放牧により牛肉等の大量生産等放牧にする各種エネルギ保存サイクル合体機関及び合体方法。 High-temperature reverse osmosis water (52D) produced by a counter-rotating engine (12G) is equipped with a transparent enclosure in an ultra-large greenhouse and injected into methane hydrate under permafrost land. The methane is recovered and cooled by a counter-rotating engine (12G) exhaust liquid methane Ice is condensed and evaporated in a transparent enclosure to generate heat of condensation. Various energy conservation cycle coalescence engines and coalescence that produce grazing such as mass production of beef etc. by various grazing of greenhouse pasture production with a lot of water drops and sunshine hours Method.
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