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.